Nicolai Levashov
About Spirit, Mind and many other things...

The Source of Life

Part 8. The Fairy Island

Photographs taken by my wife Svetlana de Rohan-Levashov

The awakening of life in spring is always a miracle of Nature! The Sun has only to warm a little more and seemingly dead Nature starts waking up from winter sleep and everything around bursts with vital force. Although this miracle happens every year, it fills the soul with amazement again and again! Yes, it is always a miracle, but what happens in our French domain cannot be called anything other than a miracle within a miracle! Magic or Fairy Island – this name is the most appropriate to describe what we can see there! In fact there is nothing magical in the phenomena called into being in our estate by the working of the psi-generator (dark matter generator) whatsoever, but they indeed look like magic, especially if we compare them with what happens in Nature in France and the rest of our planet!

Despite the indubitable riches and variety of Nature it, nevertheless, acts blindfolded. As I have already written in other articles, Nature does not have consciousness! This conclusion follows from the fact that the plants which belong to one climatic zone cannot live in the conditions of another, even the neighbouring one. Not to mention that if a plant gets into a very distant climatic zone, for example, from the equatorial to the temperate one: being carried from one zone to another which differs so drastically in climatic parameters, the plant dies very quickly. The reason for this is quite clear: it is unable to adapt to new conditions. In fact, when the climate changes, the plants of some particular climatic zone die and other plants which can adjust to the new climatic conditions appear in their place! This is what has been happening for the four billion years of the existence of life on Midgard-earth!

If Nature had reason, it would come to the conclusion that in order to prevent vegetable organisms from dieing when the temperature drops sharply, it would need to prevent the arboreal sap (the blood of plants) from freezing at temperatures below zero! If Nature had reason, it would allot plants the ability to synthesize water, as the absence of water during droughts results in rapid death of most plants and, as a consequence, in the death of the particular ecological system. If Nature had reason, it would transform soil unfavourable for plants into a favourable one or would create such conditions that plants of any climatic zone could grow in any soil, including highly adverse ones (for example, limestone). If Nature had reason, it would create conditions when plants alone could create everything they need for optimal living conditions, because plants are not animals and cannot leave their habitat in order to look for something with more suitable conditions!

We can go on searching for newer confirmations, but the abovementioned is enough for us to draw the conclusion that Nature does not have reason! It does not belittle either Nature or everything it created, but there is no reasoning element in it whatsoever! Charles Darwin erred a lot, but his conclusion that Nature’s driving force is natural selection was correct. Plants adapt themselves to the conditions of their growing. Those which are unable to adjust to changing climatic conditions die and those for which these conditions are acceptable occupy their place. In other words, it is plants that adapt themselves to the environment, not to the contrary! At the same time every particular type of plant has a very limited scope within which it can adapt to the changing environmental conditions: if that is exceeded, even a little, they die! The aforesaid demonstrates that the processes in Nature are not reasoning!

At the same time the fact that all previously mentioned deficient properties were introduced in plants by means of the psi-field generator shows that these and many other tasks can be solved if reason and the understanding of the nature of living matter is applied. This proves without controversy the absence of reason in Nature and the absence of any planetary reason or Logos!!! Despite the expedience which is inherent in Nature, our Midgard-earth, nevertheless, does not possess reason! The self-regulation mechanisms of the ecological system which are observed on our planet have nothing to do with reasoning actions! (More information you can find in my book The Last Appeal to Mankind, Chapter 3. Psi-fields in nature and in the evolution of intelligence.)

However, when Reason completes what Nature was unable to do, the real wonders, that were always considered to be impossible, do happen! But reason and reasoning life is a product of Nature, so it turns out that Nature, nevertheless, solved the problems, although indirectly, through a transmitter of reason which She created! Exactly here is the triumph of Nature, living matter and reason! When developing reason comes to understand the mechanisms and principles of Nature, in particular of living Nature, the carrier of reason becomes a creative source, and they start supplementing each other with amazing harmony which is the only way for reasoning life to develop, no matter what form it may have. I hope that the results which were obtained in our domain by means of the psi-field generator will serve as proof that this way is possible.

And now it is time to see these proofs…

The facts given in the previous seven articles of the series "The Source of Life" are this kind of proof. It is of interest that they allow us to observe the process of gradual harmonious co-operation between reason and Nature. The psi-field generator or dark matter generator was created some six years ago so as to save plants which had got into extreme living conditions.

I had to change the generator somewhat over these six years introducing newer and newer programs necessary to solve newer and newer problems with which Nature presented us. According to space standards six years is an instant for Midgard-earth, however, it was precisely this instant during which fundamentally important problems which Nature was unable to solve over billions of years of development of life on Midgard-earth, were solved! Here is the advantage of the reasoning approach over the blind natural one.

Due to the fact that the psi-field generator created the non-freezing arboreal sap in plants, their ability to synthesize water and many other properties necessary for their optimal development, we achieved the successful survival of plants from the equatorial, subequatorial, tropical and subtropical climatic zones under open European sky in the temperate climate of central France. Moreover, the plants did not just survive in the worst and actually extremely harmful, for them, soil, but also grew from 5 to 10 times quicker than they would do in the best conditions indicated in the reference data! This was not all we achieved with the help of the generator and the programs installed in it!

The subterranean waters and soils were purified and decontaminated; the environment within the limits of our domain returned to that of several hundred, or maybe several thousand years ago when human activity had not done devastating harm to all living things yet. This triggered the appearance of vegetable organisms which had disappeared several hundred years ago! I can enumerate unbelievable, from the point of view of modern science, achievements for a long time, but I consider it to be much better to reveal the next facts which confirm these deductions.

As soon as the sun warmed the earth a little more, everything in our domain began to flower vigorously. Moreover, we observed the simultaneous flowering of plants which do not usually flower at one and the same time! Hyacinths in full bloom by the middle of March (Fig. 1)! When they opened their inflorescences to meet the Sun it appeared that they belonged to the variety Blue Topaz which was not evident in February when their buds appeared. The flowers of our Hyacinths have an unusually bright blue colour and are very big even for this variety. There is another oddity with the Hyacinths: the rose-violet ones bloomed much later than the blue ones, and they had not done it by the middle of March (Fig. 2). The flowers of rose Hyacinths began to open timidly only on March, 18 (Fig. 3). Nevertheless, they were still unable to compete with the splendour and beauty of blue Hyacinths (Fig. 4).

As I already mentioned before, according to reference data, these bulbs should be kept in a dry place at a temperature not lower than +15 degrees Celsius, planted into soil when it is warmed up to 10 or 12 degrees and dug up every year! Nobody ever dug up and re-planted the bulbs in our estate. Nobody even knew that they grew in our park, because Svetlana paid attention to them for the first time two or three years ago when they bloomed. Most likely, it was previous proprietors of the castle who planted them; however, it is not clear which ones. It is also of interest that we have owned the castle since the end of 1999, almost ten years now, and Svetlana saw flowering hyacinths relatively recently! A question arises: why did the hyacinths not flower for 7 or 8 years and why did they appear? I repeat, every year the bulbs of hyacinths and tulips should be dug up and kept in a dry and warm place, but nobody ever did it on our estate!

Moreover, in 2003 climatic “surprises” began, that was why the psi-field generator was created. The weather in France has been extremely challenging for the last six years: there were frosts of twenty degrees below zero, snow and glaciations in winter (Fig. 5 and Fig. 6) and it was raining incessantly during almost the whole autumn, part of the winter and spring and everything was literally inundated (Fig. 7 and Fig. 8)! But all the reference data indicates that the bulbs of hyacinths cannot tolerate high humidity! They rot quickly, so the fact that they did not freeze at temperatures below zero and, moreover, did not rot in this great quantity of precipitation says that this could only happen in the active area of the psi-field generator! So, the fact that hyacinths appeared after six years (maybe more) is incredible and if we take into account that all bulbs should have died from frost or rot, flowering hyacinths can be fully considered another “miracle” created by the psi-field generator!

Certainly, nobody created a special program so that this kind of thing happened exactly with hyacinths. The matter is that there is a complex of programs designed for the psi-field generator which solves almost all situations which almost any plant can face independent of the climatic zone in which it was formed initially! If we get the possibility to grow plants of different climatic zones together, we can easily solve many of the problems with food which modern humanity faces. And the chance of multiple harvests without any chemical additives or exhaustion of both soil and plants offers almost unlimited possibilities for agriculture. Not to mention that the acceleration of plants’ growth from 5 to 10 times, mostly trees (especially of valuable slow growing varieties), will allow us both to stop deforesting Midgard-earth and to recover the lost lungs of our planet very quickly. The analysis of practical results regarding the application of the psi-field generator shows that the speed of growth, trees in particular, increases and this happens on the worst soil — limestone and red clay in which the majority of plants cannot grow at all (Fig. 9 and Fig. 10)!

Hyacinths Blue Topaz

Fig.1

Rose Hyacinths

Fig.2

Rose Hyacinths

Fig.3

Hyacinths Blue Topaz

Fig.4

Snow in the Royal valley

Fig.5

Snow in the Royal valley

Fig.6

Everything is inundated

Fig.7

Everything is inundated

Fig.8

Our soil - limestone and red clay

Fig.9

Our soil - limestone and red clay

Fig.10

Let us come back to what is going on in our domain. Several days passed and the rose hyacinth bloomed fully, showing to the Sun and the still very cold wind its gentle rose flowers (Fig. 11). The appearance of tulips and narcissi was also a surprise for the same reasons. Tulips showed their leaves for the first time in February and they appeared here and there among the trees of our park, where nobody ever planted them. So, here they are: in the middle of March the bright multicoloured spots of still unopened tulips show off among green grass, despite the still cold soil and night frosts (Fig. 12).

At the same time the size of our flowers is much bigger than that of their colleagues outside our domain. Their huge leaves look somewhat small in comparison with the buds and exactly the latter give the impression of “small” leaves. Despite their “narcissism”, narcissi were eager to keep pace with hyacinths and tulips. Although they could not outrun the hyacinths, they decided to do it with tulips and hurried to bloom before the latter could open their buds to greet the Sun (Fig. 13 and Fig. 14).

Cowslips (Primula veris L.) began to bloom at the beginning of February and did not even “think” to stop! They appeared in the glades of our park every day (Fig. 15). Daisies do not want “to make a mistake” and we can observe a great number of their bright yellow faces in snow-white collars in our glades and meadows (Fig. 16). A lot of Dog-violets (Viola canina L.) appeared in our domain at the beginning of March. Look at this “violet invasion” (Fig. 17 and Fig. 18), they are everywhere! Our dog-violets have a rare saturated-blue colour and they are considerably bigger than the dog-violets outside our domain (Fig. 19). By the way, according to reference data, dog-violets flower from April to June, not at the beginning of March, and grow on dry and rich in minerals soil! The soil in our domain cannot be called dry at all at this time of the year and, under no circumstances, rich in minerals! After all, neither red clay nor limestone is famous for their content of minerals: they are the poorest soils.

Chestnuts (Castanea verca Gaerth.) behaved unusually this year! Their buds began to swell in February and light-green young leaves appeared from them in the middle of March (Fig. 20).

Rose Hyacinths

Fig.11

Tulips

Fig.12

Hyacinths

Fig.13

Hyacinths

Fig.14

Primula veris L.

Fig.15

Daisies

Fig.16

Viola canina L.

Fig.17

Viola canina L.

Fig.18

Viola canina L.

Fig.19

Castanea verca Gaerth.

Fig.20

According to reference data, edible chestnuts produce leaves in April or May and bloom in June or July! In other words, the lancet leaves of 10 to 25 cm appear first and spiky inflorescences of 10 to 35 cm appear after them in a month or two! This is what the reference data says and here is what happens in our domain in the active area of the psi-field generator!

When young leaves of our chestnuts continued to grow quickly and began to open a little, their inflorescences peeped through the thinnest silk film on the buds (Fig. 21)! This phenomenon can never be observed in chestnuts (or in most plants), but it is not an optical illusion! Indeed, the inflorescences appear simultaneously with young leaves from the slowly opening buds (Fig. 22)! This miracle happens in the middle of March, and this cannot be, because at this time of year even chestnut leaves should not appear, let alone inflorescences which should be observed only within a two month term after the leaves! However, in our domain chestnut leaves and inflorescences appeared in March simultaneously!

Someone may think that I am mistaken, not being a “specialist”, and just confused leaves coming from the buds with inflorescences, because there is nothing that can be distinguished yet! Alas, I have to disappoint “a doubting Thomas”! And I do not have to do anything for this: Nature will do it for me! Only a couple of days passed and the chestnuts fully opened their buds and showed us both their young leaves and young inflorescences without any “veils” (Fig. 23)!

It is unbelievable: just two days passed since the picture of the bud in the phase of opening was taken and we can see pretty large light-green young leaves and fully formed inflorescences (Fig. 24)! So, we observe another phenomenon which cannot exist in principle, but does! One need not be a “cool specialist” to see that young chestnut leaves and inflorescences appeared simultaneously from the buds and this momentous event happened in the middle of March!

Some more days passed and it is totally clear that the chestnut inflorescences have developed extremely quickly together with young leaves which have grown extraordinarily quickly too (Fig. 25). This was not happening with one “mad” chestnut bud, but with all of them, which indicates that we are witnessing a fundamentally new phenomenon regarding these chestnuts. The spectacle of young chestnut leaves covered with tender fluff next to inflorescences is amazing and highly surprising. I am sure that nobody has ever seen such a picture! Although not all buds have opened yet, we have no doubts about what will appear out of them on the next sunny day despite a cold and piercing northerly wind (Fig. 26).

Indeed, unbelievable phenomena take place in the active area of the dark matter generator! It is of interest that it was not young nursery chestnut saplings which reacted so stormily to the influence of the generator, but mature trees which are several tens of years old and which behaved before the same way as all their “colleagues” all over the world: leaves appeared first and inflorescence appeared in a month or two! Here, right before our eyes the evolution of vegetable species occurs! Moreover, this kind of change becomes a new norm for plants.

This conclusion can be confirmed by the autumn sensation of 2008 — the fig of the “Bloody” variety. It was bred in the south of Spain where it grows at a temperature not lower than +18 degrees Celsius! When the temperature is lower these tender plants die. Therefore it was the next “miracle” that this heat-loving plant did not die at -18° C – this was the temperature that France had for several consecutive winters. This tender fig gave us the second surprise when it produced figs for the first time at the end of October with night frosts of -8° C (Fig. 27)! However, the heroism of a tender Spaniard was not over thereon. After snow and the frosty winter of 2008-2009 and the February “ice-age”, its branches became again covered with ripening figs in the middle of March, 2009 (Fig. 28)! Just imagine ripening figs on the branches of the trees in winter when everything around is covered by snow and there is a biting frost. Isn’t it a real miracle!? And the fact that the figs fully ripened in such conditions is indeed a miracle within a miracle!!!

Indeed, we can achieve unbelievable things if we succeed in merging Nature and Reason: when the complete understanding of natural laws and mechanisms and solutions to the problems which Nature could not solve for objective reasons is superimposed on the violent and blind force of Nature. By the way, these objective reasons are the following. The “creativity” of Nature is manifested only within the bounds of a certain climatic zone! All vegetable species of each particular zone adapt within the bounds of their natural habitat! They adapt to temperature fluctuations, seasons, soil, the presence or absence of humidity, both seasonal and annual, to the force and direction of blowing winds etc, because plants cannot move from one place to another. Certainly, the animals and birds spread their seeds, but they also dwell within the limits of the same climatic zone and when seeds somehow get into different climatic conditions, they almost always die, even if they succeeded in producing shoots!

Nature’s creative potential is limited, primarily, because the plants are immobile: on taking root in one place, they spend all their life in it! It is their “stay-at-home” thing that limits Nature’s creative work! In addition, in order to achieve arboreal sap that does not freeze when the surrounding water freezes, the purposeful and conscious influence on water molecules which are the basis of the arboreal sap, is needed. The same should be done in the case of water synthesis by plants and their growth acceleration, etc. Only Reason which can abstract from particular cases and rise over reality to see new horizons is able to see these cases and solve them, having necessary properties and qualities! Nature’s blind force cannot do this, and this confirms the absence of any reasoning actions on its part and the absence of any planetary reasoning, for which such tasks would be obvious, if it existed.

So, for all that grandeur and beauty, Nature does not have Reason! This fact does not belittle everything that Nature created, but the development of ecological systems during the whole period of life’s existence on Midgard-earth did not happen according to a plan elaborated by a Reasoning Nature, but due to the chaotic and uncontrollable development of life in the conditions created by Nature. Some natural phenomena in which some researchers try to see the Reasoning of Nature are not related to “Mother-nature’s reasoning actions”, but to the ignorance of those who do not understand or know anything about the nature of living matter!

And now, after this “philosophical” discourse, let us continue to examine the real facts which confirm these “philosophical” deductions!

Common cherry (Prunus cerasus L.) began to bloom extraordinarily early this year. Although cherry trees belong to frost-resistant vegetable species, nevertheless, such an early flowering (in March) is unusual (Fig. 29 and Fig. 30). At the same time there was no other cherry in the neighbourhood which opened its buds, let alone effloresced!

Chestnut – Castanea verca 
Gaerth.

Fig.21

Chestnut – Castanea verca 
Gaerth.

Fig.22

Chestnut – Castanea verca 
Gaerth.

Fig.23

Chestnut – Castanea verca 
Gaerth.

Fig.24

Chestnut – Castanea verca 
Gaerth.

Fig.25

Chestnut – Castanea verca 
Gaerth.

Fig.26

Bloody figs

Fig.27

Bloody figs

Fig.28

Prunus cerasus L.

Fig.29

Prunus cerasus L.

Fig.30

A week passed since the first cherry flowers opened and the trees were covered by an unbelievable number of unusually big flowers (Fig. 31 and Fig. 32). It is almost impossible to see the sky and the branches through the thick covering of cherry flowers! I have never seen such a flowering, although I was born and grew up in the south of Russia where cherry was an ordinary phenomenon: cherry trees grew everywhere – in gardens, along the roads and in forest plantations! So, I know very well from my childhood what a flowering cherry is, but I have never seen any blooming like the cherries we have now in France, even more so, in the middle of March, although I was born much to the south of our French estate.

Cherries were not the only ones which began to bloom so stormily. Our magnolia garden turned into a blossoming kingdom! In the middle of March magnolia buds which endured January frosts and snow and February icing began to blossom out! Enormous amazing flowers appeared from the buds to meet the Sun! Their size is thrilling, although it is not something so new for us now, but the flowers which appeared on our magnolias this year are much bigger than they were before! The fluffy and warm external protective petals of the buds opened and tender and amazingly beautiful flowers began to peep out from them.

Magnolia Soulangeana’s enormous buds appeared in the middle of March (Fig. 33 and Fig. 34) and by March 21 they become much bigger and began to open (Fig. 35)! As it already became a norm, the buds of Magnolia Soulangeana — hybrid "Iolanthe" astounded us by their size and beauty (Fig. 36)! The petals of flowers were so squashed up within protective shells that they hurried to break loose from their grip to greet the Sun! A young magnolia leaf also longs for light together with the flower which, actually, should not happen! On “feeling” the freedom, the petals rushed to the light and in just several days became much bigger than the already restrictive protective shell (Fig. 37).

Magnolia "Wada’s picture"’s buds broke through protective shells too (Fig. 38): poor buds had to shrink within their relatively small shells, which, nevertheless, protected them from dieing from frost and icing! Straightening themselves up, the tender buds began to grow vigorously under the rays of the still cold March Sun (Fig. 39) becoming bigger with every passing day (in the direct sense of the word) and were ready to show their fragile and tender beauty to the whole world (Fig. 40).

Prunus cerasus L.

Fig.31

Prunus cerasus L.

Fig.32

Magnolia Soulangeana 
– hybrid ««Iolanthe»

Fig.33

Magnolia Soulangeana 
– hybrid «Iolanthe»

Fig.34

Magnolia Soulangeana 
– hybrid «Iolanthe»

Fig.35

Magnolia Soulangeana 
– hybrid «Iolanthe»

Fig.36

Magnolia Soulangeana 
– hybrid «Iolanthe»

Fig.37

Magnolia «Wada’s picture»

Fig.38

Magnolia «Wada’s picture»

Fig.39

Magnolia «Wada’s picture»

Fig.40

Most likely some magnolia trees began to “miss” the snow and covered themselves with white flowers. Look at Magnolia “Kobus”, Citron’s trees glazed with white flowers (Fig. 41 and Fig. 42) and we are still in the middle of March! The snowflake-buds of Magnolia “Kobus”, Citron open up and we can see a small sun in each magnolia “snowflake” (Fig. 43)! Magnolia "Loebneri", Merill’s light-rose buds began to open too (Fig. 44 and Fig. 45). Magnolia “Royal Crown’s” flowers jumped from their protective shells with “space speed” and tried to rid of them as quickly as possible (Fig. 46). On achieving this, they opened up to meet the Sun with true royal grace (Fig. 47). According to its “star” status, Magnolia “Star Wars” kept pace with others and even tried to leave them behind (Fig. 48 and Fig. 49), while Magnolia “Soulangeana Lenei” is not in a hurry to open its buds, saving the vital force for its own “hour of triumph”. Nevertheless, they are already enormous and the still closed up petals have an extraordinarily rich colour (Fig. 50)!

Magnolia «Kobus», Citron

Fig.41

Magnolia «Kobus», Citron

Fig.42

Magnolia «Kobus», Citron

Fig.43

Magnolia «Loebneri», Merill

Fig.44

Magnolia «Loebneri», Merill

Fig.45

Magnolia «Royal Crown»

Fig.46

Magnolia «Royal Crown»

Fig.47

Magnolia «Star Wars»

Fig.48

Magnolia «Star Wars»

Fig.49

Magnolia «Soulangeana Lenei»

Fig.50

There is one fact which passed unnoticed and was overshadowed by this blooming and fragrant fairy-tale — the richness of the colour which magnolia flowers and all the rest of our plants have! The plant breeders aimed to obtain this kind of colour richness in their magnolias which grow in the most favourable conditions: in the best soil, at optimum temperatures etc. In our case the soil is the worst one can ever find and the weather is highly unfavourable, but, nevertheless, the flowers of our magnolias are of unbelievable size and have an extraordinarily rich colour which the breeders cannot get no matter how hard they try! This indicates that plants get everything necessary for producing such a colour in the active area of the psi-field generator! It is of interest that the colour richness becomes stronger with every passing year which can be observed with the naked eye. It is enough to look at any picture of blossoming magnolia to be sure of that.

This year magnolias began to flower when the sun activity was still insufficient, the soil (the most unfit for magnolias) was not warmed enough and the arboreal sap moved very slowly within the “vessels” of the plants. Despite all these highly unfavourable conditions, magnolia buds (and not only them) are literally flooded with powerful vital energy! Where did plants get it from, considering the above conditions? It came from the source of vital force which I call the psi-field generator or dark matter generator!

The programs which were installed in the generator created properties and qualities which no plant has ever had in Midgard-earth! The non-freezing arboreal sap, the blood of plants, and other changes made it so that the plants preserved their outward appearance, but acquired fundamentally new qualities! The only imperfection here is that even the non-freezing arboreal sap moves along the “vessels” of the plants insufficiently quickly at low temperatures. If we draw a parallel between animals which are divided into cold and warm-blooded and plants, the latter can be attributed to the “cold-blooded” living organisms, the vital processes of which depend on the external temperature. Therefore, one of next tasks will be to increase the mobility or fluidity of the arboreal sap at low temperatures, including below zero!

If this can be achieved, then the plants will produce fruits in winter under open sky, not in greenhouses! Well, these are just some thoughts about future tasks which have to be solved, no matter how unbelievable they may be on the face of it! In fact, until quite recently the already solved tasks were either the ravings of a madman, as some people thought, or unrealizable fantasies, as others thought, but now they are objective reality! No matter whether someone likes it or not! One just needs to continue searching for solutions and use a creative and unconventional approach to a problem. Well, all this will be in the future and now let us come back to the present objective reality.

Magnolia “Betty” blossomed in the second half of March. Its flowers grow prettier with every passing year, just as other magnolias in our park do; is there a limit to their beauty, I wonder (Fig. 51 and Fig. 52)! We can say the same about Magnolia “Heaven Scent”, the enormous and magnificent buds of which have just began to open (Fig. 53 and Fig. 54)! The buds of Magnolia “Merill”, Rosea look like funny rose octopuses (Fig. 55) and here it is the first “visitor” of the already fully opened bud, a bumble-bee (Fig. 56)! If we look into the bud we can understand what the bumble-bee was looking for (Fig. 57). It was nectar which the flowers of magnolias began to produce at this time of year: when soil has not warmed up yet after winter frosts! It is a pity that pictures do not allow us to smell the aroma of the blossomed magnolias, but if they could everybody would find themselves in a “perfume” garden! In fact, every magnolia has its own unique scent and playful wind mixes them up and creates amazing perfume masterpieces! The wind changes direction, unexpectedly darts away and then unexpectedly calms, thus creating the surprising melody out of the smells of blossoming magnolias!

Sometimes Nature creates very interesting images. If we glance at the picture of Magnolia “Star Wars” (Fig. 58), we may be surprised at how these buds remind us of the heads of rose flamingos which proudly walk about the shoals of Lake Victoria. You look at them and feel that the “flamingos’ heads” are just about to turn… Although it is very pleasant to live in the world of images, it is time to go back to the world of reality which sometimes can be much richer than one’s imagination, especially when the matter is about phenomena created by the psi-field generator! So, let us come back to the real world which strikes any imagination!

In the second half of March magnolias continue to blossom in the world which the dark matter generator created and carefully maintains. The enormous flowers of snow-white Magnolia “Leonard Meissel” opened up fully, looking charming under the sun rays (Fig. 59).

However, magnolias were not the only ones that strike with their beauty and the size of their flowers. It is incredible, but it is a fact: the first leaves and a lot of buds appeared on the branches of apple-trees in the second half of March (Fig. 60), although according to reference data, apple-trees should blossom not earlier the end of April or May, if the weather is warm!

Magnolia «Betty»

Fig.51

Magnolia «Betty»

Fig.52

Magnolia «Heaven Scent»

Fig.53

Magnolia «Heaven Scent»

Fig.54

Magnolia «Merill», Rosea

Fig.55

Magnolia «Merill», Rosea

Fig.56

Magnolia «Merill», Rosea

Fig.57

Magnolia «Star Wars»

Fig.58

Magnolia «Leonard Meissel»

Fig.59

Blooming apple trees

Fig.60

Again, the flowers on the branches of our apple-trees are considerably bigger than ordinary ones (Fig. 61).

The Japanese plum let out its young leaves which from a distance look like unusual light-green flowers (Fig. 62) the “petals” of which directed upwards like the arrows. Enormous and dense, dark-green “old” leaves strengthen this impression. Even if we come closer, young leaves of the Japanese plum look more like feathers of a fairy-tale bird than leaves (Fig. 63)! However, it is not young leaves, but precisely old leaves of this subequatorial plant that cause a surprise: they look like new ones as if there were no autumn night frosts, biting frosts and snow in January and, finally, the February icing! Old leaves are succulent, green and full of life.

The emerald-light-green young leaves of the red raspberries (Rubus daeus) which appeared on canes in the second half of March surprised us too (Fig. 64). Soon we can see its simple but pretty inflorescence. It is incredible because the red raspberry flowers in the second half of June! We can observe an even more unbelievable thing: yellow raspberries (Rubus ellipticus) have emerald-light-green young leaves (Fig. 65) simultaneously with its inflorescences, but they do not start flowering earlier than in the beginning of August (Fig. 66)! So, this is a real surprise, especially, taking into account the fact that yellow raspberries bloomed at the end of March, before the red raspberries!

Some of the red currant’s (Ribes vulgares Lam.) inflorescences are already open and hide themselves under young leaves (Fig. 67). Certainly, the flowers of the red currant cannot compete with that of magnolias, but these little inflorescences have their own modest beauty (Fig. 68)! Moreover, let us not to forget that we are still in March! The black currants (Ribes nigrum L.) keep pace with the red one. Its flowers have blossomed and are full of nectar, waiting for the first visitors-gourmands (Fig. 69 and Fig. 70)! We are at the twentieth of March, and the inflorescences of the black and red currant appear on the canes simultaneously with young leaves!

Blooming apple trees

Fig.61

The Japanese plum

Fig.62

The Japanese plum

Fig.63

Red raspberries – Rubus daeus

Fig.64

Yellow raspberries – Rubus ellipticus

Fig.65

Yellow raspberries – Rubus ellipticus

Fig.66

Red currants – Ribes vulgares Lam.></A>
<H3>Fig.67</H3></TD>
<TD ALIGN=center><A HREF= Red currants – Ribes vulgares Lam.

Fig.68

Black currants – Ribes nigrum L.

Fig.69

Black currants – Ribes nigrum L.

Fig.70

So, we witness another “miracle”: young leaves and inflorescences come into the world from the buds at one and the same time and very quickly grow without doing any harm to each other! This kind of thing just cannot exist, but it does! There is another very interesting and surprising detail in the “berries matter”: the inflorescences of the yellow raspberries and red currants, which the specialists consider to be very tender and capricious, appeared and began to blossom earlier than that of their firmer “colleagues” – the red raspberries and black currants! According to reference data, the inflorescences of the red currant does not appear earlier than the second half of May, and the yellow raspberry – the beginning of August! Besides, this happens usually in the south when the weather is warm enough, which, certainly, cannot be said about the Royal valley in March of 2009!

In addition to the abovementioned “miracles”, we continue to see figs, both ripening and already mature, on the still naked branches (Fig. 71)! If we see figs in one more month, we could then tell about their all-year-round fruiting! As a result of the psi-generator working, even the tenderest kind of figs, such as “Bloody”, for example, produced figs both in summer and winter despite frosts of 20 degrees, snow and icing over!

Mushrooms keep pace with figs. They also “decided” to turn to all-year-round production. Newer and newer Maitake mycelia appear here and there. They continue to surprise us by their size and the variety of colouration (Fig. 72 and Fig. 73). Champignons (Fig. 74) and Shitakes (Fig. 75 and Fig. 76) readily keep them company. Their bodies appear in the glades and among the trees of our park as if this is the way they always did! Shitake showed their hats among the emerald-green grass which remains unharmed after January frosts and snow-falls and February icings, and in March it is as green and fresh as if being recently grown (Fig. 77)! It is surprising, but this is a fact: the arboreal sap of the grass, as well as of all the plants in our domain, does not freeze in the active area of the psi-field (dark matter) generator even at the temperatures of 20 degrees below zero!

It is the end of March and the glades of our park are still covered with blooming Cowslips which continue to appear here and there. These spring flowers have been blooming already for almost two months which is quite unusual and surprising (Fig. 78 and Fig. 79). Tulips show off too here and there (Fig. 80). Their appearance cannot help surprising us: all this time their bulbs were in the soil when it was raining, when the soil was solid frozen during biting frosts of 20 degrees and when everything was covered by the crust of ice!

Figs

Fig.71

Maitake

Fig.72

Maitake

Fig.73

Champignons

Fig.74

Shitakes

Fig.75

Shitakes

Fig.76

Green grass in March

Fig.77

Cowslips – Primula veris L.

Fig.78

Cowslips – Primula veris L.

Fig.79

Tulips

Fig.80

The bulbs of tulips and hyacinths should have surely died!!! But they did not, due to one and the same reason – the psi-field generator made the plants of our domain invulnerable to dampness, frosts, heat and drought! The pictures of the neighbouring area prove this.

The Nature outside our domain is fully corresponds to that of March. There is not even a faint resemblance of green grass beyond our fence, everything is still sleeping there (Fig. 81)! On March 16, 2009 the fields and meadows around our domain are still grey and unattractive (Fig. 82, Fig. 83 and Fig. 84). Only by March 25, 2009 did the first sparks of young green grass modestly appear among last year's dead grass (Fig. 85 and Fig. 86).

And at the same time Nature continued to rage with vital force within the bounds of our domain!

Magnolia “Iolanthe”’s enormous flowers continue to blossom. They are so big that the branches look very small in comparison with them (Fig. 87). At the background of the picture you can perfectly see the emerald glades of our park. The blossoming flowers are so enormous and inconceivably beautiful (Fig. 88 and Fig. 89)! When you look at the young tree, the branches of which are covered with blossoming flowers, there is the impression that it is not a tree, but a thin twig with flowers. This is because the flowers of magnolia “Iolanthe” are so huge that everything in their background seems small (Fig. 90);

The still sleeping Nature

Fig.81

The still sleeping Nature

Fig.82

The still sleeping Nature

Fig.83

The still sleeping Nature

Fig.84

Sparks of green grass

Fig.85

Sparks of green grass

Fig.86

Magnolia «Iolanthe»

Fig.87

Magnolia «Iolanthe»

Fig.88

Magnolia «Iolanthe»

Fig.89

Magnolia «Iolanthe»

Fig.90

they are huge and fairy-tale wonderful, especially in the sun’s rays (Fig. 91 and Fig. 92). Some flowers already timidly show their “core” in which stamens and pistil “hide” (Fig. 93). With all their immensity, the petals of the flowers did not lose their elegance and tenderness, and the sun rays create the illusion of fragility, shining through them (Fig. 94). It seems that the first weak gust of breeze will wreck this unearthly beauty, but even strong and cold wind was unable to do this, although in earlier years a temperature drop and cold winds resulted in fading of the already blossoming flowers. In 2009 spring frosts and winds could not do their nasty business — the flowers of Magnolia “Iolanthe” remained intact and wonderful and continue to blossom to meet the Sun every morning…

The flowers of Magnolia “Soulangeana Lenei” are extraordinarily large this year. Their petals are very bright and have a very rich colour which should not be observed on such poor soil (Fig. 95 and Fig. 96). Magnolia “Wada’s picture” keeps pace with these magnolias (Fig. 97)! Actually, all magnolia flowers of 2009, without any exception, are extraordinarily big even in comparison with magnolias of previous years, although the size of our magnolia flowers then was considerably bigger than that of any outside the boundaries of our domain. I wrote about it in “The Source of Life 1, 2, 3 and 6”, but what we have witnessed this year became the next surprise even for us!

The opening buds of magnolias, in particular Magnolia “Wada’s picture”, are matchless and delightful! The buds open more with every passing day and their beauty takes the breath away (Fig. 98)! The petals have an extraordinary bright colour; the contrast is especially striking between deep, snow-white colour of the internal surface of the petals and the external one, the colour of which gradually changes from vine to pure-white! On piercing the petals of Magnolia “Wada’s picture”, the sun rays create the illusion that petals are made of the thinnest china (Fig. 99). At the same time every bud of this magnolia is unique and it is impossible to find two identical ones. The petals have a wavy form which does not repeat in them thereby creating this uniqueness (Fig. 100 and Fig. 101).

Magnolia «Iolanthe»

Fig.91

Magnolia «Iolanthe»

Fig.92

Magnolia «Iolanthe»

Fig.93

Magnolia «Iolanthe»

Fig.94

Magnolia «Soulangeana Lenei»

Fig.95

Magnolia «Soulangeana Lenei»

Fig.96

Magnolia «Wada’s picture»

Fig.97

Magnolia «Wada’s picture»

Fig.98

Magnolia «Wada’s picture»

Fig.99

Magnolia «Wada’s picture»

Fig.100

Frankly speaking, it is very difficult to find the words to describe what is happening in our park and magnolia garden in the spring of 2009. There are no words to convey the state which one experiences on looking at the blossoming magnolias.

When one looks at the branches covered by enormous flowers of Magnolia “Star Wars”, it is hard to realize that they flower on a young tree of three or four meters high, not on a small bush (Fig. 102)! It is enormous buds that cause the impression of a thin trunk and branches of a young tree, which is not surprising — the diameter of still unopened buds of

Magnolia “Star Wars” promises to be more than half a meter (Fig. 103)! And now they look in the rays of a descending Sun nacreous and at the same time velvety and that creates a feeling of “unearthly” origin (Fig. 104 and Fig. 105).

The innumerable buds which appeared on the branches of Magnolia “Royal Crown” are huge too (Fig. 106). Look how amazingly elegant they are (Fig. 107 and Fig. 108)! They really look like a crown in the rays of the descending sun, thus, justifying their name – the “Royal Crown” (Fig. 109).

The flowers on Magnolia “Merill”, Rosea have already blossomed fully. They look like small octopuses which have beautiful petals instead of tentacles (Fig. 110).

Magnolia «Wada’s picture»

Fig.101

Magnolia «Star Wars»

Fig.102

Magnolia «Star Wars»

Fig.103

Magnolia «Star Wars»

Fig.104

Magnolia «Star Wars»

Fig.105

Magnolia «Royal Crown»

Fig.106

Magnolia «Royal Crown»

Fig.107

Magnolia «Royal Crown»

Fig.108

Magnolia «Royal Crown»

Fig.109

Magnolia «Merill», Rosea

Fig.110

It is really admirable thing to see, magnolia trees strewed with light-rose flower-“octopuses” (Fig. 111)! As a matter of opinion, when you look at the trees covered by flowers of such size and in such an amount while there is not even a hint of something blossoming around, you feel as if something enchanting and magical surrounds you, as if you find yourself on some fairy island (Fig. 112)! The nursery transplant of Magnolia Soulangeana “Apollo” has its first extraordinary bright flowers of enormous size (Fig. 113 and Fig. 114). When its buds, dark-wine at the bottom, open, the snow-white interior of the petals with violet “veins” reveals itself to the world. The flowers of this magnolia do not open at once: the upper layer of the petals is the first to open, thus, uncovering the next group of petals which hide the heart of the flower (Fig. 115). Some more days and… the last “bastion” of petals surrenders, revealing this heart to the shining sun (Fig. 116)!

Magnolia Soulangeana “Galaxy” keeps pace with other magnolias regarding the beauty and size of the flowers (Fig. 117). In fact, when it comes to flowers, it is impossible to compare one flower with another: the beauty of each flower is unique! We can talk only about one’s personal preference, but when you look at enormous blossoming magnolia buds in our garden, you are unable to make a choice: beauty is everywhere, wherever you may look! Certainly, the form of our flowers does not differ from that of their “colleagues” outside our domain, but their fantastic size, richness of colour and velvety structure of the petals make our flowering magnolias unique!

You will not be able to find anything of the kind anywhere on earth! Despite highly unfavourable growing conditions (the worst soil, poor weather, etc.), such a miracle exists only due to the working of the psi-field generator or dark matter generator! I have mentioned it tens of times, but the importance and uniqueness of the phenomena which constantly happen in our domain make it necessary to repeat it again and again to destroy any illusion of something unreal and impossible which a reader may have! No matter how fairytale, magical or impossible it may look, everything that happens within the bounds of our domain is real, material and exists as a result of application of the knowledge about which modern science has no idea! Yes, our domain can be called a fairy island, but... only the fairy island of knowledge amongst surrounding ignorance! Exactly the real application of this knowledge creates this magic island in the middle of surrounding commonness. Exactly this fairy island gives the possibility to show what the correct understanding of nature and its laws can really do in practice, how it can create what Nature was unable to create!

In order to find confirmation of these words, we can take a glance at any magnolia flower and not only them. Really, it is very difficult to express the delight caused by the charming beauty of blossoming flowers: you have just admired the beauty of one magnolia as you are carried away with the second and the next moment you are delighted with the third one! There are no words to convey the total admiration for each one. Even the very pictures of amazing magnolia flowers render a “magical” influence – one cannot help looking at them again and again, enjoying the beauty. Most likely, the psi-field generator “charged” them with some unprecedented attractive force. Let us glance at the picture of, for example, Magnolia Soulangeana “Galaxy” and make sure of this. Pictures can “freeze” instants of life for us to contemplate them again and again, or to embrace the whole layer of the past and compare it with the present (Fig. 118, Fig. 119 and Fig. 120).

Magnolia «Merill», Rosea

Fig.111

Magnolia «Merill», Rosea

Fig.112

Magnolia Soulangeana «Appolo»

Fig.113

Magnolia Soulangeana «Appolo»

Fig.114

Magnolia Soulangeana «Appolo»

Fig.115

Magnolia Soulangeana «Appolo»

Fig.116

Magnolia Soulangeana «Galaxy»

Fig.117

Magnolia Soulangeana «Galaxy»

Fig.118

Magnolia Soulangeana «Galaxy»

Fig.119

Magnolia Soulangeana «Galaxy»

Fig.120

Look at these shockingly beautiful “frozen instants”: thousands of snow-white petals of Magnolia “Kobus”, Citron (Fig. 121) or fragile tenderness of Magnolia “Georges Henry Kern” (Fig. 122).

Magnolia “Yellow Bird” and Magnolia “Butterfly” pleased us especially this year. These very rare magnolias grow perfectly in environmental conditions incompatible with their life and produce flowers much bigger than all of their rare “folks” outside our domain. Moreover, it is impossible to see such bright-yellow colour petals anywhere else outside our domain! Here are some photos which confirm the first statement: the enormous buds of Magnolia “Yellow Bird” (Fig. 123, Fig. 124 and Fig. 125). The branches of this still young tree look like thin twigs in comparison with such enormous buds! And here is the confirmation of the second statement: the flowers of Magnolia “Yellow Bird” (Fig. 126). On seeing such an intensive and bright yellow colour, any specialist in magnolias would be highly surprised, because such a colour has been never observed in these magnolias. It cannot be, but it is!

In order to understand how much the size of the buds and their colour changed over the years, let us compare them. Magnolia “Yellow Bird” flowered in 2004 for the first time and we took it as a miracle then, taking into account the quality of the soil. In 2004 the colour of petals was light-yellow, the size of flowers was the same as all other magnolias of this type have in the rest of the world (Fig. 127). We can judge about the size of the bud comparing it with the thickness of the branches and bearing in mind that the nursery magnolias were planted in limestone in 2003 and became several times higher over the following years, see “The Source of Life-6”. In the following year, 2005, the flowers already acquired the deep bright-yellow colour and petals became more succulent and acquired an unusual velvetiness (Fig. 128). The buds of 2009 did not lose the depth of the colour and fleshiness of the petals and in addition became much bigger (Fig. 129).

There is another very unusual phenomenon related to Magnolia “Yellow Bird”. It was bred as a result of selectivity and is a hybrid of several magnolias. Therefore, when one of the young trees of this magnolia was planted into the area of a certain natural anomaly on which the action of the psi-field generator was superimposed, it resulted in one and the same tree appearing in qualitatively different conditions. As a result, the genes of Magnolia “Merill”, one of the parents of Magnolia “Yellow Bird”, began to prevail on one half of the tree and the purely white buds of exactly Magnolia “Merill” type appeared there, and the other half of the tree was covered by buds of the actual Magnolia “Yellow Bird” (Fig. 130 and Fig. 131).

Magnolia «Kobus», Citron

Fig.121

Magnolia «Georges Henry 
Kern»

Fig.122

Magnolia «Yellow Bird»

Fig.123

Magnolia «Yellow Bird»

Fig.124

Magnolia «Yellow Bird»

Fig.125

Magnolia «Yellow Bird»

Fig.126

Magnolia «Yellow Bird»

Fig.127

Magnolia «Yellow Bird»

Fig.128

Magnolia «Yellow Bird»

Fig.129

Magnolia «Yellow Bird»

Fig.130

And when the buds opened, it appeared that they differed not only in colour, but also in the form of the flowers and petals (Fig. 132)! This kind of thing is incredible and impossible in principle from the point of existent genetics and selection! It is another unexpected surprise from the psi-field generator…

Magnolia “Yellow Bird” was not the only one: another yellow flowered magnolia — Magnolia “Butterfly” — acquired an enviable yellow colour in the active area of the generator! This magnolia bloomed in 2004 for the first time and, although its flowers were the same as in the rest of the world, the colour of the flowers was difficult to call yellow, it was, most likely, a shade of yellow, although, the plant breeders worked hard and long to get it (Fig. 133). However, the blossoming flowers of Magnolia “Butterfly” had the most real yellow colour by the next year (Fig. 134) and the petals became much denser and bigger….. Here we have a quite another flower which acquired a certain nobleness and elegance. By 2009 the flowers of Magnolia “Butterfly” became yet more unusual, the yellow colour became richer and deeper, and the form — even more fantastic (Fig. 135). It is really impossible not to keep our eyes glued on the blossoming buds — they are really amazing and appear almost unearthly; the plant breeders should call this magnolia “Yellow star”, instead of “Butterfly” (Fig. 136). However, if we glance at the fully opened flower of this magnolia, its petals indeed look like the wings of a butterfly (Fig. 137)… a very big one, because the flowers of Magnolia “Butterfly” became gigantic over the years (Fig. 138)!

Magnolia “Serena” bloomed for the first time this year and the buds immediately appeared to be enormous. It has an interesting feature: every tier of its petals has a different shade, so we can observe a surprising gradient of colours (Fig. 139 and Fig. 140).

Magnolia «Yellow Bird»

Fig.131

Magnolia «Yellow Bird»

Fig.132

Magnolia «Butterfly»

Fig.133

Magnolia «Butterfly»

Fig.134

Magnolia «Butterfly»

Fig.135

Magnolia «Butterfly»

Fig.136

Magnolia «Butterfly»

Fig.137

Magnolia «Butterfly»

Fig.138

Magnolia «Serena»

Fig.139

Magnolia «Serena»

Fig.140

The buds of Magnolia Soulangeana “Honey” are extraordinarily enormous and numerous this year (Fig. 141). Again, the unusual richness of the colour, the dense structure of the petals and their velvetiness give the impression that you see living “porcelain” (Fig. 142 and Fig. 143)! Magnolia “Linely”’s buds are huge and amazing too (Fig. 144): when blossoming, they create a striking harmony between the form of petals and the colour. There is no magnolia which would have the following colour spectrum: smooth transition from vinous at the bottom of the petal to light-violet at the tip (Fig. 145 and Fig. 146). The blossoming light-violet enormous buds of Magnolia “Ricky” look like fairy jelly-fish which is submerging into mysterious ocean depths (Fig. 147)! And when you look at the bud from above, it strongly resembles an opening rose (Fig. 148).

I can go on describing the blooming magnolias and their enormous flowers endlessly, but I think it is better to look at the picture of our castle buried in bright and rich colours in order to make sure of the saying “a picture paints a thousand words” (Fig. 149 and Fig. 150).

Magnolia Soulangeana «Honey»

Fig.141

Magnolia Soulangeana «Honey»

Fig.142

Magnolia Soulangeana «Honey»

Fig.143

Magnolia «Linely»

Fig.144

Magnolia «Linely»

Fig.145

Magnolia «Linely»

Fig.146

Magnolia «Ricky»

Fig.147

Magnolia «Ricky»

Fig.148

Blooming Magnolias

Fig.149

Blooming Magnolias

Fig.150

Then it will be clear without any words that a fairy-tale is possible in our reality, because one cannot call what is going on in our domain anything other than a fairy-tale or magic which becomes possible only due to the understanding and knowledge of real natural laws! This is not a fairy mirage, but absolute reality which will not disappear anywhere, no matter how hard you may rub your eyes or blink (Fig. 151 and Fig. 152)!

Magnolias were not the only plants that bloomed “in full sail”! The buds of Japanese Camellia «Shintsukasa» opened at the end of March (Fig. 153)! This evergreen is widespread in countries with a subtropical climate and grows under the open sky in areas with very mild winters and high humidity. There is no problem with humidity in France in autumn and winter, which cannot be said about the “mildness” of the climate: autumn and spring night frosts, especially strong in the last years, winter frosts up to twenty degrees, snow that covers the earth for weeks and thick ice on lakes and rivers for several months! So, if we take into account reference data, Japanese Camellia should have died in such environmental conditions in the open ground, but the plant did not die and feels itself perfectly at home despite frosts and icing! Look at its leaves – they are absolutely unharmed – and opened buds which are considerably bigger than those of camellias outside our domain (Fig. 154)!

At the end of March Rosa floribunda is already fully covered with leaves despite frosts, snow and icing (Fig. 155). The tender light-green leaves of the Tulip tree (Liriodendron Tulipifera) shyly appeared from the buds (Fig. 156 and Fig. 157). Maple bloomed energetically at the end of March too (Fig. 158), although it should do it in the second half of May (Fig. 159 and Fig. 160).

Blooming Magnolias

Fig.151

Blooming Magnolias

Fig.152

Japanese Camellia 
«Shintsukasa»

Fig.153

Japanese Camellia 
«Shintsukasa»

Fig.154

Rosa floribunda

Fig.155

Tulip tree 
– Liriodendron Tulipifera

Fig.156

Tulip tree 
– Liriodendron Tulipifera

Fig.157

Maple

Fig.158

Maple

Fig.159

Maple

Fig.160

Its Japanese “colleagues” kept pace. The buds of Japanese maple “Green lace” (Acer Palmatum Japonicum “Green lace”) released tender leaves at the end of March (Fig. 161), which is highly surprising, because, according to reference data, this slowly growing bush does not tolerate impregnation of limestone in the soil and dies, and we have it growing in pure limestone!

Japanese maples are very sensitive to frosts and require warming or even transplantation into a hothouse for the whole cold period. In our case, Japanese maple was all the time under open sky and successfully survived 20 degrees frosts in January, snow and icing in February and calmly let its leaves out at the end of March (Fig. 162)! But it should have died! Limestone, snow and frost should have killed it! Well, it did not happen: in March its young leaves met the Sun! Again, this “miracle” happened in the active area of the psi-field (or dark matter) generator! Moreover, in ten days the maple’s leaves were fully formed (Fig. 163). At the same time not a single sprig of maple died because of frost or icing (Fig. 164). The spring shower made its leaves looked like “green lace” which Mother-Nature had carefully woven (Fig. 165).

Another Japanese maple, the variety “Fire glow”, (Acer Palmatum Japonicum “Fire glow”) kept pace with “Green lace”. On looking at its young leaves, one can perfectly understand why he is given such a name (Fig. 166): the tips of its leaves become bright scarlet over the time and look like a living flame in the wind. By the middle of April the “fire glow” had already released its inflorescences (Fig. 167)! But it should have died too in pure limestone, frosts and icing!

Lusitanian cherry-laurel (Prunus laurocerasus L.) did not lose its evergreen leaves during weather calamities and at the end of March had inflorescences (Fig. 168)! According to reference data, Lusitanian or Portuguese cherry-laurel, blooms in June in its Motherland and prefers rich soil! And here is what happened within the bounds of our domain: it produced inflorescences at the end of March, which gained force at the beginning of April (Fig. 169) and by the middle of April was in full bloom (Fig. 170 and Fig. 171)! And this is another psi-field generator “miracle”.

Acer Palmatum Japonicum 
«Green lace»

Fig.161

Acer Palmatum Japonicum 
«Green lace»

Fig.162

Acer Palmatum Japonicum 
«Green lace»

Fig.163

Acer Palmatum Japonicum 
«Green lace»

Fig.164

Acer Palmatum Japonicum 
«Green lace»

Fig.165

Acer Palmatum Japonicum 
«Fire glow»

Fig.166

cer Palmatum Japonicum 
«Fire glow»

Fig.167

Prunus laurocerasus L.

Fig.168

Prunus laurocerasus L.

Fig.169

Prunus laurocerasus L.

Fig.170

Young leaves of the Japanese plum (Photinia Japonica) grew considerably over the last ten days and look more like the old ones, but the silvery-light-green colour still distinguish them from their “senior comrades” (Fig. 172 and Fig. 173)!

At the beginning of April the Japanese cherry (variety “Kanzan”) was covered in numerous buds which appeared simultaneously with bronze-orange leaves (Fig. 174). Probably it is the only plant in our domain which prefers the lime soil and for which pure limestone poses no mortal threat! By the middle of April the buds opened fully and the branches dressed up in rose lace made of blooming flowers (Fig. 175). Again, the distinctive feature our Japanese cherry “Kanzan” is that its flowers are considerably bigger than those which grow outside our domain (Fig. 176).

The wild cherry (Prunus cerotina “Globulus”) blooms stormily; its flowers are very big too and we can imagine the size of the future cherries (Fig. 177 and Fig. 178)! In the beginning of April the “Chanticleer” pear (Pyrus “Chanticleer” pear) bloomed dramatically too, and its branches are covered all over with flowers (Fig. 179). This variety of pear should not flower earlier than in May (which happens in favourable conditions – warm weather, good soil, etc.), but our pear didn’t pay any attention to the very chilly weather in the beginning of April and each flower is two or three times bigger than normal ones (Fig. 180)!

Prunus laurocerasus L.

Fig.171

Photinia Japonica

Fig.172

Photinia Japonica

Fig.173

Japanese cherry, variety “Kanzan”

Fig.174

Japanese cherry, variety “Kanzan”

Fig.175

Japanese cherry, variety “Kanzan”

Fig.176

Wild cherry – 
Prunus cerotina «Globulus»

Fig.177

Wild cherry – 
Prunus cerotina «Globulus»

Fig.178

Pyrus «Chanticleer» pear

Fig.179

Pyrus «Chanticleer» pear

Fig.180

There are so many flowers on the branches that it is very difficult to discern the leaves, and one gets the impression that the pear trees are covered with numerous enormous snowflakes (Fig. 181 and Fig. 182).

At the end of March young light-green leaves appeared on the branches of the silver linden-tree (Tilia tomentosa) (Fig. 183 and Fig. 184). And by the middle of April bright green leaves shimmering with silver rustled on the linden-trees (Fig. 185) and the linden path in our park had put on silvery-green clothes (Fig. 186).

Only a week passed since the young leaves and inflorescences appeared simultaneously and unexpectedly from the buds of the chestnut (Castanea verca Gaerth.), which could not happen under any circumstance, but new facts confirmed that this phenomenon was not some kind of natural misunderstanding. By the end of March young light-green leaves became enormous and the inflorescences grew simultaneously with them and were developing normally, which is unbelievable indeed. It is the first time this kind of phenomenon has been observed in this tree for the whole time of its existence (Fig. 187). By the middle of April the leaves became much bigger and acquired an emerald-green color; the buds were formed fully and some of them even blossomed (Fig. 188, Fig. 189 and Fig. 190).

Pyrus «Chanticleer» pear

Fig.181

Pyrus «Chanticleer» pear

Fig.182

Tilia tomentosa

Fig.183

Tilia tomentosa

Fig.184

Tilia tomentosa

Fig.185

Tilia tomentosa

Fig.186

Chestnut  – Castanea verca 
Gaerth.

Fig.187

Chestnut – Castanea verca 
Gaerth.

Fig.188

Chestnut – Castanea verca 
Gaerth.

Fig.189

Chestnut – Castanea verca 
Gaerth.

Fig.190

At the beginning of April the monkey puzzle tree (Araucaria araucana) had cones for the third time in one year (Fig. 191 and Fig. 192)! This is yet another miracle happening in our domain in the active area of the psi-field generator! Another one, but, surely, not the last one! The future will show how many unbelievable phenomena have yet to happen, but the next miracle, which I just supposed would happen when I began to write this article, finally happened!

In beginning of April, the new ovaries appeared on the fig trees at the same time as young tender leaves (Fig. 193)! At the beginning of the article I assumed only that if young figs appeared in April, we could talk then about the figs’ all-the-year-round fructification! So, ten days passed and this supposition became reality! New fig ovaries appeared at the beginning of April on still naked branches which have their buds opened timidly showing young leaves (Fig. 194)! The circle has been completed! In 2008 the fig trees began to produce fruits in April and continued to do this for 12 months, as new figs which appeared on the branches at the beginning of April in 2009 completed the annual cycle of fruiting.

Certainly, we observed some “miracles” regarding figs, as for example, three generations growing simultaneously on the branches of the tree last summer, but the all-the-year-round fructification, especially of the tenderest varieties, is the most impressive one!

The figs which appeared at the beginning of April began to grow quickly leaving the leaves behind! Look at the picture dated April 4 (Fig. 195) and then April 5 (Fig. 196) and make sure for yourself! The figs grew in one day which can be noted even with the naked eye. Very tender fig leaves came out fully from the buds only in several days (Fig. 197). Again, we witness a unique phenomenon — the figs appeared simultaneously with young leaves! This kind of thing has never happened before!

The speed with which the figs grow is really staggering, because by April 9 they grew more and now cannot be called “ovary”. While the leaves were still small (especially, if taking into account their size of 48 cm in 2008), the growing figs looked pretty impressive (Fig. 198)! Certainly, we cannot say that they grow “by leaps and bounds” like in fairy-tales, but we do can say without any doubts that they quickly grow day by day (Fig. 199). A young fig leaf almost did not change while figs grew quite notably (Fig. 200).

Îáåçüÿíüå äåðåâî – 
Araucaria araucana

Fig.191

Monkey puzzle tree – 
Araucaria araucana

Fig.192

Young figs

Fig.193

Young figs

Fig.194

Young figs

Fig.195

Young figs

Fig.196

Young figs

Fig.197

Young figs

Fig.198

Young figs

Fig.199

Young figs

Fig.200

The inflorescences were completely formed by the end of March on the red raspberry (Rubus daeus) (Fig. 201) and the red currant (Ribes vulgare Lam.) (Fig. 202), which blossomed in the first days of April showing to the Sun although small but very pretty light-claret petals which, by the way, appeared at least two months earlier than they should (Fig. 203). The black currant (Ribes nigrum L.) remained a little behind the red currant (which is surprising): the inflorescences appeared by the end of March (Fig. 204) and they fully formed by April 4 (Fig. 205) and only on April 9 the flowers began to blossom (Fig. 206). However, as for mass flowering, the black currant easily outran the red one which promises an unbelievable harvest this year and, by the way, very early; and most likely, not the only one (Fig. 207)

At the beginning of April the golden currant bloomed too (Fig. 208), as well as the gooseberry (Ribes uva-crspa L.), each flower of which looks like an ear-ring and there are so many of these “ear-rings” on the bushes (Fig. 209). It is of interest that according to reference data, the roots of the gooseberry die off at a temperature of 3 or 4 degrees below zero, but there were frosts of nearly 20 degrees this winter which lasted several days. I do not mention less severe frosts of 8 degrees which had been occurring since October, 2008! Again, the gooseberry requires rich fat land which obviously is not the word for our pure limestone!

By the end of March we had ripe strawberries for the second time (Fig. 210)!

Red raspberry – 
Rubus daeus

Fig.201

Red currants – 
Ribes vulgare Lam.

Fig.202

Red currants – 
Ribes vulgare Lam.

Fig.203

Black currants – 
Ribes nigrum L.

Fig.204

Black currants – 
Ribes nigrum L.

Fig.205

Black currants – 
Ribes nigrum L.

Fig.206

Black currants – 
Ribes nigrum L.

Fig.207

Golden currants

Fig.208

Gooseberry – Ribes 
uva-crspa L.

Fig.209

Strawberries

Fig.210

They “opened the season” of 2009 at the beginning of March and we had to wait the whole month for the next harvest, as the vital activity of plants is low at low temperatures. Undoubtedly, it is high time to solve the problem of the fluidity of the arboreal sap at low temperatures, including that of below zero. Only then it is possible to accelerate the fruit ripening in autumn and winter. And not only fruits! All processes are slowed in plants at low temperatures: the growth of plants and leaves, the blooming of buds and ripening fruits. These “problems” appeared when I succeeded in solving the problem with freezing arboreal sap. However, similar problems do not exist in nature, because evergreens just die at a temperature of below zero and conifers have a powerful protective bark and fall into some kind of hibernation, like bears do. However, even thick bark does not always protect them from very severe frosts!

The arboreal sap, nevertheless, freezes at very low temperature even in conifers and tears their trunks. So, non-freezing arboreal sap did not exist in Nature and there were no “problems” with it. But when the problem was solved and the arboreal sap of any plant stopped freezing at twenty degrees below zero, and fully possibly, at lower temperatures, “side problems” occurred! I say “fully possibly”, because we did not have temperatures lower than twenty degrees below zero in our domain yet. I am sure that the arboreal sap will not freeze at much lower temperatures, but right now there are no proofs of that! Although the very fact that the arboreal sap does not freeze at 20 degrees below zero already serves as undeniable evidence that the task is solved.

Just a minor “side problem” is left to be solved: I have to increase the fluidity of the arboreal sap at low temperatures! In the case of success, the vital activity of plants in autumn and winter will be very similar to that of summer! In order to understand how strongly the fluidity of the arboreal sap influences plants and their vital processes, we examine the development of the strawberry. This year the first strawberry harvest was gathered in the first days of March and the second one was ready on March 29. However, as soon as it became a little warmer, the new strawberries were already ripe within a week, on April 4; at the same time small bushes intensely flowered and formed new buds (Fig. 211). One more week passed and a new harvest ripened, and new flowers blossomed, and new buds are ready to appear (Fig. 212)! Some kind of a conveyer was switched on. Moreover, the flowers and berries become bigger with each following flowering.

The forest strawberry (Fragana vesca L.) bloomed very enthusiastically by the middle of April (Fig. 213). Its flowers covered all the glades of our park with a beautiful carpet. It is of interest that the flowers this year are much bigger than normal ones which lead us to suppose that the berries will be considerably bigger too (Fig. 214). The bush the name of which we still do not know stormily effloresced at the beginning of April (Fig. 215 and Fig. 216). Tulips (Tulipa L.) began to bloom at the beginning of April (Fig. 217 and Fig. 218) and in the middle of April they flowered “at full speed” (Fig. 219 and Fig. 220).

Strawberries

Fig.211

Strawberries

Fig.212

Forest strawberry – 
Fragana vesca L.

Fig.213

Forest strawberry – 
Fragana vesca L.

Fig.214

Unknown bush

Fig.215

Unknown bush

Fig.216

Tulips

Fig.217

Tulips

Fig.218

Tulips

Fig.219

Tulips

Fig.220

Their flowers are much bigger than they should be and the colour of the petals is extraordinarily bright and rich. I have never seen such a deep colour in tulips (Fig. 221 and Fig. 222).

By the beginning of April all the glades in our park were covered with cowslips (Primula veris L.) (Fig.223), these flowers grow so densely that it is difficult to believe that nobody planted them on purpose (Fig. 224). In order to make sure that this is so, look at the picture of our linden path (Fig. 225). Numerous dandelions flower in the glades of our park (Fig. 226). Here we again observe a unique phenomenon: each yellow-bright flower of the dandelion, which looks like a bright little sun, is considerably bigger than those which grow outside our domain (Fig. 227). Daisies compete with dandelions in number invading our meadows and glades (Fig. 228 and Fig. 229).

Champignons look slightly out of place among flowering daisies on the glades in the middle of April, just as they and other mushrooms did in January, February and March (Fig. 230)!

Tulips

Fig.221

Tulips

Fig.222

Cowslips – 
Primula veris L.

Fig.223

Cowslips – 
Primula veris L.

Fig.224

Cowslips – 
Primula veris L.

Fig.225

Dandelions

Fig.226

Dandelions

Fig.227

Daisies

Fig.228

Daisies

Fig.229

Champignons

Fig.230

New Maitake mycelia continue to appear on the glades and stumps here and there (Fig. 231). The new type of mushrooms the name of which we did not define yet appeared in the park in April (Fig. 232).

Almost all trees in our park put their young leaves on as early as the end of March (Fig. 233 and Fig. 234) and by the middle of April everything became emerald-green (Fig. 235 and Fig. 236). At the same time everything just began to green in the neighbouring areas. Our castle located on a small hill on the banks of the Loire, does look like an island of fairy-tale and magic where life and colours rage while everything around is still grey and unattractive…

Before I finish the article, I would like to mention another phenomenon related to the psi-field generator on our domain. Several years ago Svetlana chose some apricot trees in one of the fruit tree nurseries, but did not bring them to our orchard. She just selected the trees from among other trees which differed in nothing! So, the apricot trees (Prunus armeniaca L.) which Svetlana chose bloomed in March and by the first half of April had pretty large apricots on the branches (Fig. 237)! !

Maitake

Fig.231

Unknown mushrooms

Fig.232

Green park

Fig.233

Green park

Fig.234

Green park

Fig.235

Green park

Fig.236

Apricot trees in April

Fig.237

Other apricot trees of the same nursery did not even flower, because their flowering starts in the second half of May!

On choosing some trees in the nursery, Svetlana mentally connected them with all the other plants in our domain, and all the time the psi-field generator (or the dark matter generator) influenced only these trees at a pretty long distance from us, while all the other trees at the nursery continued “to behave” as normal apricot trees do in the rest of the world! Thus, the psi-field generator can influence selectively any plant and, probably, at any distance, without “touching” even the neighbouring plant of the same variety: one should just connect the necessary plant to the generator (it is enough to do it telepathically)! However, one should know how to do it...

Nicolai Levashov, April 22, 2009


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