KR101597396B1 - anti-mematode compound using tetrodotoxin - Google Patents

Abstract

The present invention relates to a nematocidal agent for inhibiting or killing the growth of nematodes that are highly parasitic on soil or crops. More particularly, the fish catcher is immersed in potassium hydroxide (KOH) reagent for 5 to 7 days Wherein the organic matter is removed from the puffer fish liquid by filtration, the organic matter is removed from the puffer fish liquid, methanol is added to the puffer fish liquid from which the organic matter has been removed, and then acetone is added to form a sediment. It has a remarkable effect that can be applied to eco-friendly agriculture because it is easy to spray easily on nose and vinyl house, and is excellent in prevention of nematodes and insect pests, and abuse of chemical pesticides is small.

Description

Anti-mematode compound using tetrodotoxin using blowfish poison

The present invention relates to a nematode controlling agent using a blowfish poison which is capable of preventing nematodes and insect pests without using chemical pesticides by inhibiting or killing the growth of the nematodes, which are extracted from puffer fishes.

The present invention relates to a nematocarbial detoxification agent using a puffer fish poison to inhibit or kill the growth of nematodes that are highly parasitic to soil or crops. More particularly, After 5 ~ 7 days of decomposition, the organic matter is removed by filtering the pufferfish liquid, and the methanol is added to the puffer fish liquid from which organic matter has been removed. Then, acetone is added to form a sediment, .

Generally, in many countries including Korea, cultivated crops are cultivated in the form of crops or facility house cultivation, resulting in various disorders or damage. Especially, the damage caused by the plant parasitic nematode, which is a soil nematode, is enlarged annually, which causes a huge economic loss.

Plant parasitic nematodes are small organisms belonging to the nematode, which are present in all the soil. Most plant parasitic nematodes are very small and can only be identified on a microscope.

The plant parasitic nematode is generally thread-like, thin, spindle-shaped, symmetrical, with a length of 0.25 to 0.45 mm, very small, with no nodules on the body and wrinkles on the body surface. The body wall is composed of the epidermis, the dermis, and the muscles, and constitutes the nervous system by the central nervous system and the neural rings around the esophagus. Reproduction occurs when a female adult gives birth to an egg, and it is propagated through varieties or sympathetic reproduction. The plant parasitic nematodes hatched in the egg grow after adult stage 4, survive for about 1 month and develop digestive organs and reproductive organs. In the case of females, about 50 to 600 eggs Lays. The plant parasitic nematode has a needle on the tofu, and the needle is inserted into the root tissue of the plant to puncture it, absorb the nutrients of the plant tissue, or invade into the root tissue.

These plant parasitic nematodes are parasitic in all parts such as seeds, leaves, stems, and roots of plants. Depending on the species, the plant parasitic nematodes may be exogenous, And inserting the nutrients into the plant body. In addition, there are some migratory migratory migratory migratory migratory migratory migratory migratory migrants.

The damage caused by plant parasitic nematodes is slight when the densities of the nematodes in the soil are low. However, when the densities of the nematodes grow higher as the crops grow, the host plants are fatal.

Plants infected with plant parasitic nematodes are less resistant to pathogens, thereby promoting or intensifying the onset of pathogens, and some nematodes mediate plant pathogenic viruses.

In order to alleviate the damage caused by these plant parasitic nematodes, efforts have been made for the control of plant parasitic nematodes. Physical control methods, chemical control methods and biological control methods are typical methods of control.

As a physical control method, hot boil disinfection method, electrothermal warming method, ultraviolet ray irradiation and ultrasound method have been tried, but in the case of hot boil disinfection method, only the temperature is elevated and sunlight is strong, If you are not sure about the efficacy of the control by hot water sterilization law. The heat transfer method is a method of controlling plant parasitic nematodes by installing an electric heating line in the ground and warming the cultivated land using the same, which is inevitably limited to the intermittent period in which the crop is not cultivated, .

Chemical control methods are currently used most frequently, but most of the drugs used to control plant parasitic nematodes are organophosphorus compounds that inhibit the activity of acetylcholine esterase. Acetylcholine esterase It increases insecticidal action by increasing the amount of choline. Most of these organophosphoric acid insecticides are defined as harmful substances. In addition, these insecticides cause indiscriminate destruction of microbial crops in the soil as well as soil microbial communities, resulting in destruction of the soil environment such as salt accumulation and eventually deepening the sequential disorder. In addition, crops contaminated with pesticide residues pose a threat to consumers' health and at the same time cause economic loss to farmers.

The present invention relates to a nematocide controlling agent and a nematicide controlling agent used for controlling plant parasitic nematodes, wherein the soil and the plant are contaminated with pesticides, and the contaminated harvest is a problem that threatens the health of consumers, The present invention relates to a nematode controlling agent and a method for producing the nematocide using a blowfish poison which can control nematodes using a blowfish poison which does not pollute the environment and does not harm the health of a consumer without causing pollution of environment, .

In order to solve the above-mentioned problems, the present invention provides a nematocide-containing nematocide-containing detoxifying agent, wherein the nematode is detoxified into potassium hydroxide (KOH) reagent for 5-7 days, The present invention is to provide a nematode controlling agent which extracts organic matter by filtering the organic matter, adding methanol to the puffer liquor from which the organic matter is removed, and then adding acetone to form a sediment.

The nematode controlling agent using the blowfish poison according to the present invention has the following effects.

The nematode controlling agent using the blowfish poison according to the present invention is produced in granular form and has a remarkable effect that it can be easily sprayed and used on soil and vinyl house and can be mixed with fertilizer and sprayed. It has an excellent effect of significantly reducing the environmental pollution of the soil.

In addition, the nematocarcinoma control agent using the blowfish poison according to the present invention can be manufactured into powder, granule and liquid form, so that it can be produced in a granular form, sprayed first in the soil, and after the planting (after growing the plant) A remarkable effect can be obtained in which the inhibition of nematodes is remarkably increased when the nematocarbons are sprayed onto the soil using the blowfish poison according to the present invention.

1 is a flow chart of a method of manufacturing a nematocarbia agent using a blowfish poison according to the present invention

The present invention relates to a nematocidal agent for preventing or killing the growth of nematodes largely parasitic to soil or crops, and more particularly to a nematocidal agent for purifying fungi using a potassium hydroxide (KOH) reagent For 5 to 7 days, decomposed into a pufferfish liquid, filtered through a sieve screen to remove organic matter, methanol is added to the puffer fish liquid from which the organic matter has been removed, and then extracted with acetone to form a sediment. It has a remarkable effect of maximizing the productivity of eco-friendly agriculture by minimizing the abuse of chemical pesticides by using poisonous poison, which is excellent in prevention of nematodes and insect pests.

Hereinafter, preferred embodiments of the nematocide-controlling agent using the blowfish poison according to the present invention will be described in detail.

The nematode controlling agent using the blowfish poison according to the present invention includes a blowfish poison extracted from eggs, testis, liver, blood and gonads of blowfish, 50 g of each of the medicinal herbs is added to 1 L of water and 1 L of water. The mixture is mixed with the medicinal herb composition prepared by squeezing out the water for 2 hours in a hot pot for 2 hours at a weight ratio of 1: 1.

Next, a method for producing a nematocarbial agent using a blowfish poison according to the present invention will be described in detail with reference to a manufacturing process flowchart shown in FIG.

One. Blowfish poison  Extraction step;

The nematocarbial detoxification agent using the blowfish poison according to the present invention extracts the blowfish poison from eggs, testis, liver, blood and gonads of the blowfish containing a large amount of blowfish poison. First, The present invention uses potassium hydroxide (KOH) 95% (flake) reagent and the brewer's volume and potassium hydroxide (KOH) reagent in a ratio of 5: 1 (that is, about 2 kg of potassium hydroxide at 10 kg of buppah fish), and the fish is immersed in potassium hydroxide (KOH) reagent at room temperature for about 5 to 7 days (about one week).

The pufferfish liquid decomposed by the above-described decomposition process is filtered by a filter having a very dense mesh to remove various organic substances, and methanol is added to the puffer fish liquid filtered by the filter to remove organic matter. , And then the acetone is added to the fructose solution which has been pumped with methanol to sediment the sediment. Through this process, you get a blowfish poison of white amorphous crystals.

2. mixing step;

The pufferfish poison extracted from the pufferfish in the pufferfish extracting step is mixed with a composition to be described below. One or more kinds of herbal medicine selected from the following herbaceous plants: Namhae, And the mixture is squeezed out for two hours in a hot water bath to form a herbal composition, and the composition of the herbal medicine and the pufferfish poison extracted from pufferfish are mixed at a ratio of 1: 1 by weight.

3. Powder forming step;

About 1 kg of the mixture formed in the mixing step was placed on a drying oven in a dry oven and the temperature and time of the dryer were set at 65 to 80 ° C and for 5 to 6 hours and the dried mixture was pulverized by a KF- 35) to about 10 mesh to form a powder.

4. Processing step;

The powder mixture in the powder forming step and the flour powder are mixed in a weight ratio of 1: 0.3-0.5 in a rotary mixer for 5 minutes and stirred well.

The flour mixture mixed with the wheat flour is mixed again with the pulp at a ratio of about 9: 1, and the mixture is kneaded in a rotary kneader (KUN-05) for 10 to 15 minutes.

The kneaded mixture with the paste is again fed into a granulator (KYK-160) to be granulated.

The granulated mixture is put into a dryer and dried at a temperature of about 30 to 50 DEG C for 2 to 3 hours to facilitate storage and storage.

Therefore, the nematocarbial detergent using the blowfish poison according to the present invention is produced in granular form, and is easy to spray and use in soil and vinyl house, and has a remarkable effect that it can be mixed with fertilizer and sprayed.

In addition, the nematocarcinoma control agent using the blowfish poison according to the present invention can be manufactured into powder, granule and liquid form, so that it can be produced in a granular form and sprayed on the soil firstly, and after the planting (after growing the plant) A remarkable effect can be obtained in which the inhibition of nematodes is remarkably increased when the nematocarbons are sprayed onto the soil using the blowfish poison according to the present invention.

The following is an experimental result of the nematode inhibitory effect according to the increase / decrease of the nematocyst agent using the blowfish poison according to the present invention.

Experimental Method

In a beaker or a paper cup, 100 cc of sterilized sand is placed, and 3,000 nematodes are inoculated (10 mL) in the beaker or a paper cup. Then, a nematocarcinoma control agent according to the present invention is inoculated (10 mL).

(Temperature: 25 캜, time: 3 days, incubation for 2 days, larvae of nematode by microscope)

process Live appendix Control (%) Nematoda (Puffer fish) 10 times 84.1 84.5 Nematoda (Puffer fish) 100 times 62.3 62.9 Nematoda (Puffer fish) 500 times 50.8 50.5 Nematoda (Puffer fish) 1000 times 45.0 45.1 No treatment 776.0

As can be seen from the experimental results shown in the above "Table 1", when the nematode is reduced according to the dilution concentration and the result is that the pufferfish poison is extracted from the blowfish and diluted, .

That is, it can be seen that when the mixing ratio of the blowfish poison to the nematocide using the blowfish poison according to the present invention is increased, the number of live aquifers decreases, and as the weight ratio of blowfish poison increases, Is remarkably increased.

The above description is merely illustrative of the technical idea of the present invention, and various modifications and changes may be made without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention belongs. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

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Claims (3)

Including blowfish poison,
The pufferfish poisoned fish was immersed in a potassium hydroxide (KOH) reagent for 5 to 7 days to decompose into a puffer fish liquid. The fish was filtered through a sieve filter to remove organic matter. Methanol was added to the puffer fish liquid from which the organic matter was removed, And is extracted by forming a sediment. delete delete

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