RU2383133C1 - Method and device for controlled wave effect at varroa mite - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is related to bee keeping and is intended for controlled wave effect at parasitic varroa mite and its larvae in nesting space of bee hive. Method of action consists in change/damage of isolated varroa mite genome with the help of X-ray or ultraviolet radiation, scanning of isolated donor mite specimens with changed genome by optical wave device for measurement of their spectral characteristics, which are inherent in this biological organism, conversion of optical range of parasitic mite and its larvae frequencies-destructors into parametrically related radiowave spectrum, for blocking of varroa mite larvae development in case of radiation of healthy mite and its larvae with such radiowave spectrum in nesting space of beehive.

EFFECT: invention is aimed at more efficient elimination of varroa mite and its larvae in nesting space of beehive.

3 cl, 2 dwg

Description

Application: in beekeeping.

Essence: the effect on the tick of varroa in the nesting space of the hive by the altered wave information of the same tick.

EFFECT: extermination of a parasitic tick by a varro-wave scanning by a radio-frequency spectrum, modulated by a range of frequency-destructors by the same tick.

Purpose: controlled wave action on the tick of varroa in the nesting space of the hive.

PP Garyaev in his works “The Wave Genome”. M. 1994 (pp. 11, 13, 43, 69, 158, 159) and the “Wave genetic code”. M. 1997 (pp. 17, 22-24, 27, 29, 30) scientifically substantiated the fundamental importance of endogenous regulatory electromagnetic (wave) processes in a multicellular organism, used when exposed to ticks.

The known method of wave transmission of biological information (international application PCT / RU96 / 00236 WO 96/41872) has the disadvantage of performing a passive method of reading, transmitting and receiving wave genetic information with a long exposure and large distortions of the transmitted biological information.

Currently, known methods of controlling the varroa tick are zootechnical, physical and chemical (p. 383, Komarov A.A. An amateur beekeeper. M. Citadel, 1997), and also RF patent application No. 2006118238 (prototype) provides a mechanical method for controlling with varatosis of bees. However, all these methods are not effective enough: either there is no complete destruction of the tick, or a change of method is required in connection with the adaptability of the tick. At the same time, in medicine and in biology, methods have been used for a long time to influence biosystems with physical fields, namely, by reading negative biological information.

In the proposed method of controlled wave action on the tick of varroa and its larvae in the nesting space of the hive, the above disadvantages are eliminated.

The first method is as follows: in isolated mite individuals, the genetic apparatus (genome) is preliminarily damaged (genome) by X-ray irradiation (not shown), scanned by an optical wave device (laser) to remove special spectral characteristics associated with the wave component of genetic and metabolic information given by the species-specific optical activity of DNA, RNA, and Protein. Thus, the photon electromagnetic radiation of a laser modulated by the damaged genome of the tick acquires distorted, damaging wave information that blocks the development of the tick and larvae. Photon radiation is converted to broadband electromagnetic radiation, which preserves the damaging properties of the tick and larvae. The optical range of frequency-destructors of the parasitic tick and its larvae is converted into a parametrically coupled radio wave spectrum. A transducer (high-frequency receiver) isolates a low-frequency component from the radio-frequency broadband optical range of the damaged wave genetic information. The extracted information is recorded on any storage of audio information for periodic use. This information is capable of blocking the development of the varroa tick and its larvae when exposed to such a low-frequency component of the radio wave spectrum.

The second way to destroy the tick and its larvae is that isolated individuals of the tick are irradiated with the ultraviolet part of the spectrum to damage their genome. Further, the low-frequency component of the radio wave spectrum, which has the property of killing the tick and its larvae in the nesting space of the hive, is removed from these individuals in the manner described above.

The adaptability of the tick in separately located closely located hives of one apiary, i.e. the mechanism of destruction of a parasitic tick for different apiaries may differ due to their adaptability under different conditions, identical for apiaries with accumulated chemical treatments and internal changes in the parasite's organism that are characteristic of one apiary.

It follows that it is desirable to use a wave damaging information characteristic for only one apiary.

To increase the efficiency of the destruction of the parasitic tick and its larvae, several nested emitters of the coherent radio wave spectrum are used, connected by shielded wires of the same length to one wave source. Thus, in the apiary, coherent wave radiation is created in all the hives. Repeated wave effects destroy the nest mite and its larvae located in the combs, in a sealed brood and on nesting and flying bees.

A device for controlled wave action on a tick of varroa and its larvae is shown in Figure 1, where the selected individuals of the tick and its larvae 2 are affected by a laser beam 3 from laser 1. Beam 4, modulated by a parasitic mite by transducer 5 (high-frequency receiver), is converted into more low frequency range 6, which is recorded on the sound information storage device 7. Thus, antiparasitic wave information for the apiary with the presence of this tick and its larvae is obtained.

Figure 2 shows the antiparasitic wave action from the drive 7 through the shielded wire 8 on the nest space of the hive 9 through the nest emitter 10. All multi-source wave radiation in the nest spaces of the hives coincide in frequency, amplitude and phase, that is, are coherent for one apiary.

The device operates as follows: the selected individuals of the tick 2 (Figure 1) are exposed to an electromagnetic field 3 from the laser 1, the modulated beam 4 through the converter 5 is converted to a lower frequency range 6, which is recorded on the information storage device 7. The accumulated information on the shielded wires 8 selectively sessions affect the nest space of the hive 9 through emitters 10.

The proposed method and device can be used to combat other existing tick species in beekeeping, as well as any other agricultural pests and human parasitic insects, as well as pathogenic bacteria and viruses.

Patent studies and analysis of the proposed method and device allow us to conclude that the set of essential features given in the claims is not known in beekeeping. Therefore, the claimed method and design of combating ticks meet the criterion of "novelty."

Claims (3)

1. A method of controlled wave action on a tick of varroa, located in honeycombs and on bees in the nesting space of the hive, by changing / damaging its genome by irradiation with X-ray or ultraviolet, scanning isolated individuals of the donor tick with a modified genome by an optical wave device to remove them spectral characteristics inherent in a given biological organism, converting the optical range of frequency-destructors of a parasitic tick and its larvae into a parametrically coupled radio wave spectrum, to block the development of Varroa mite larvae under irradiation such radio wave spectrum in the nesting space hive healthy mites and larvae. 2. The method according to claim 1, characterized in that periodic impacts in the low frequency range by coherent radiation with a damaging characteristic through the nesting emitters on the nesting space of the hive destroy the tick and its larvae in honeycombs and bees. 3. The device controlled wave action on the tick of varroa in the nesting space of the hive for implementing the method according to claim 1, characterized in that it contains a laser for exposure to an isolated individual of the tick, a frequency converter for converting the modulated laser beam into a lower frequency range, which is recorded on an information storage device, for periodic damaging effects of coherent radiation on the nest space for further destruction of the tick and its larvae in honeycombs and bees.

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