KR910005764B1 - Method for promoting the productivity of animals plants - Google Patents

Abstract

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Description

How to Improve Plant and Plant Productivity

1 and 2 show examples of biphasic action potential waveforms.

* Explanation of symbols for main parts of the drawings

A: pulse width B: pulse interval

The present invention irradiates animals and plants with alternating magnetic poles of the N pole and S pole generated when a pulse current having a waveform similar to the two-phase active potential waveform is energized by a magnetizing coil. The present invention relates to a method for improving the productivity of animals and plants.

가 미세시간 dt동안 변화하는 미세변화, 즉 d

/dt의 치가 매우 높아서, 정현파자력선인 경우의 100배 또는 그 이상이 된다는 사실로서 설명될 수 있다. 자속밀도의 급격한 변화는 그대로 기전력의 증가로 되고, 세포에 대하여 전기화학적으로 큰 영향을 미치는 것으로 사료된다. 또 이같은 급격한 변화는 세포중의 수소등의 각종 원자에 스핀현상을 야기시켜 결과적으로 큰 효과를 발생시키는 것으로 사료되고 있다.The present inventors have been studying the influence of the magnetic force line on the cell inactivation, the magnetic pole lines of the alternating N pole and S pole generated by energizing the magnetizing coil with a current having a similar waveform to the biphasic action potential waveform is applied to the commercial alternating sine wave. When compared with the magnetic field generated by the force, it was found to be remarkably effective against cell inactivation. This is because the magnetic flux generated by the electric current having a similar waveform to the biphasic action potential waveform is the sine wave compared to the case where the sine wave penetrates into the activating cell.

Is a microvariation in which d varies over a fine time dt, ie d

It can be explained by the fact that the value of / dt is very high, which is 100 times or more than that of the sinusoidal magnetic field lines. The rapid change in magnetic flux density is an increase in electromotive force, which is thought to have a great electrochemical effect on the cells. It is also believed that such rapid changes cause spin phenomena on various atoms such as hydrogen in cells, resulting in large effects.

As a result of continuing research on cell inactivation, the inventors have investigated the magnetic field generated by pulse currents having a waveform similar to the biphasic action potential waveform to animals and plants such as breeding animals, cultivated plants and cultured cells. The present invention has been found to be able to significantly improve the production line.

The pulse current having a waveform similar to the biphasic action potential waveform used in the present invention indicates a pulse current having a general waveform similar to the ideal action potential waveform generated in the nerve, and FIGS. 1 and 2 illustrate such pulse currents. will be.

In Figures 1 and 2, pulse width A generally ranges from 1/500 to 1/50 second, preferably 1/500 to 1/100 second, and B between pulses generally ranges from 1/100 to 1 Seconds, preferably in the range 1/50 to 1/5 seconds. An example of a preferred apparatus capable of producing such a pulse current is described in Japanese Patent Application No. 71,926,83 (MASAKI Kazumi). The magnetic potential of such a device (hereinafter referred to as a magnetic pulse generator) is generally set in the range of 10 to 100,000 amperes.

As used herein, the term “animals and plants” refers to animals and plants (eg mammals, birds, fish, shellfish and insects; animals such as mammals, algae, dicotyledons, birds) that have been bred, cultivated or cultured in agriculture, forestry, fisheries or the pharmaceutical industry , Plants such as basidiomycetes and microorganisms) or their tissues or cells.

The term "improving productivity" used in the present invention promotes the growth, growth and proliferation of animals and plants, shortens the period of breeding, cultivation or incubation, and products from animals such as meat, milk, eggs, fur It is meant to achieve higher yields and improved quality of products from plants such as cocoons and pearls, such as foliage, flowers, fruits, bacteria, antibiotics, enzymes and bioactive substances. In order to improve the productivity of the flora and fauna, other suitable treatments, such as administration of holmones or vitamins, adjustment of temperature or quantity of light, etc. can be performed in the process of irradiating the magnetic field lines of the alternating NS poles with the magnetic pulse generator of the present invention.

The following examples illustrate the invention better.

Example 1

Newborn piglets at one time were divided into two groups (Example group and control group). The example group was placed twice in tidal in a stable 1.8m x 1.8m barn equipped with a magnetic pulse generator (10,000 amps run, pulse width 1/400 sec and pulse interval 1/30 sec), each time for 10 minutes. The NS pole alternating magnetic lines were investigated. At other times not investigated, the mother pigs are fed with the control group. The average number of days for which piglets weighed twice at birth was 14 days for the non-irradiated control group, whereas 10 days for the group treated according to the present invention.

Example 2

About 1.0 kg of broiler chickens were marketed according to a conventional method as a commercial blended feed. Two groups (example group and control group), each forming one group of five animals, were placed in different cages having a width of 1m × 1.5m. The cage of the example group was equipped with a magnetic pulse generator (100 amps run, pulse width 1/200 sec., Pulse interval 1/10 sec.), And the group examined the magnetic field lines of the NS pole alternating force every 30 minutes for 1 hour. Breeding for a week. As a result of measuring the average weight gain with respect to 1 kg of feed consumed by the chicken during this period, the Example group treated according to the present invention was 0.41 kg, whereas the non-irradiated control group was 0.35 kg.

Example 3

A magnetic pulse generator (500 amps / run, pulse width 1/50 second, pulse interval 1/5 second) is attached to the teat-cup area of the milking machine when the cows are working one month after delivery. As a result of examining magnetic field lines of NS pole alternation, milking yield improved about 25%.

Example 4

A medium-sized nucleus was inserted into a three-year-old Pinctada martensii and floated from the cultured raft in the usual way. A magnetic pulse device (100,000 amps / run, pulse width 1/100 second, pulse interval 1/10 second) was installed around the raft, and the magnetic field lines of the NS alternating force were examined for 6 months for 2 tides and 30 minutes each time. . The pearls thus produced were pearls of high quality, good in the growth, color and gloss of the nacre.

Example 5

The topsoil is placed in two different seedlings (Example seedlings and control seedlings) of 1.0m × 0.5m in width, and the Japanese radish (Raphanus sativus L.,) is placed in the usual manner. Sprinkled, arithmetic and stored in outdoor shade. The magnetic pulse generator (100 amps run, pulse width 1/100 second, pulse interval 1/20 second) was attached to the circumference of the example drawing, and the magnetic field lines of the alternating NS poles were irradiated for 5 days. As a result of harvesting Japanese radishes from each seedling after 5 days, the yield from the seedlings treated according to the present invention was about 40% higher than that of the non-irradiated control seedlings.

Example 6

Ten-year-old Muscut of Alexandria in the greenhouse was divided into two groups (example group and control group). In the example group, a magnetic pulse generator (1000 amps run, pulse width 1/100 second, pulse interval 1/20 second) was placed about 0.5m above the root, and the NS pole alternating magnetic field line was used for 15 minutes for each year. Was investigated.

When compared with the non-irradiated control group, the Example group treated according to the present invention had excellent water washing, excellent color and flavor of the fruit, and improved yield of about 2.0 times on average.

Example 7

ENOKI-TAKE, a kind of Flammulina velutipes mushroom, cultured at 20 ° C using a liquid medium containing 2w / v% malto extract according to the conventional method, chinquapin 4 parts by weight of wood sawdust (Castanopsis cuspidata var. Sieboldii); Inoculated into a solid medium consisting of 1.5 parts by weight of rice bran and 7.5 parts by weight of water and incubated for 40 days at 18 to 20 ℃ divided into one group of the example group and the control group. During the incubation period, the Example group is located within about 1 m from the magnetic pulse generator (100 amps run, pulse width 1/200 sec, pulse interval 1/10 sec), and the magnetic pole lines of the NS pole alternating force are alternated for 15 minutes every 6 hours. Investigate.

Example group treated according to the present invention was superior to the non-irradiated control group, and the average yield of fruiting bodies was also improved by about 3.3 times compared to the control group.

Example 8

Soluble starch 2w / v%, NH ₄ NO ₃ 1w / v%, K ₂ HPO ₄ 0.1w / v%, MgSO ₄ · 7H ₂ O. 0.05w / v%, Corn precipitate 0.5w / v%, CaCO 15 l each of the liquid medium consisting of _{3 1} w / v% and water were taken in each of the Example Jar. Fermenter and the control Jarformer, and sterilized at 120 ° C. for 20 minutes. After cooling each liquid medium to 50 ° C., the seed culture solution of Bacillus strearothermophilus FERM-P No. 2222 was inoculated 1v / v%.

EXAMPLES A magnetic pulse generator (1000 amps run, pulse width 1/400 sec, pulse interval 1/10 sec) was mounted on the inner wall of the jarformer, and then the magnetic field lines of alternating NS poles were examined during the entire culture period. C was incubated under aeration stirring conditions for 48 hours. The control Jarformenter was cultured similarly to the method described above except for magnetic field irradiation.

Cyclodextrin glucanotransferase production in the example jarformer treated according to the present invention was improved by about 45% compared to the non-irradiated control.

Claims (9)

A method of improving the productivity of an animal or plant by irradiating the animals or animals with magnetic field lines of alternating N-pole and S-pole as effective amounts having a waveform similar to the biphasic action potential waveform. The method of claim 1, wherein the pulse width of the magnetic line pulse ranges from 1/500 seconds to 1/50 seconds. The method of claim 1, wherein the pulse width of the magnetic line pulse ranges from 1/100 second to 1 second. The method according to claim 1, wherein the magnetic potential of the magnetic line pulse is in the range of 10 to 100,000 amperes. The method according to claim 1, wherein the magnetic force line pulse force of the N-pole S-pole alternating energizes a coil current having a waveform similar to the ideal action potential waveform to the coil for magnetization. The method of claim 1, wherein the animal is selected from the group consisting of pigs, chickens, cows, and pearl clams. The method of claim 1, wherein the plant is selected from the group consisting of microorganisms of Japanese radish, Muscal Alexandria, Enogi-Dage and Bacillus stearoshamophilus species. A method of improving the yield and the material of a plant or animal product by irradiating the animals and plants with magnetic field lines of alternating N and S poles with an effective amount having a waveform similar to the two-phase action potential waveform. 9. The yield and quality of a plant or animal product according to claim 8, wherein the plant and animal product is selected from the group consisting of meat, milk, eggs, fur, cocoons, pearls, foliage, flowers, fruits, bacteria, antibiotics, enzymes and bioactive substances. How to improve.

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