RU2202199C2 - Method for treating plants at manufacturing plant growing production, preparation used in this method for treating plants and method for its production - Google Patents

Abstract

FIELD: agrochemistry, plant growing. SUBSTANCE: it is suggested the preparation for treating plants and method for its obtaining including successive extraction of Mortierella elongata micromycete out of biomass with nonpolar extragent in supercritical state with water, alkali, water, acid, water, alkali and water followed by combining solid residue with the first extract, and, also, method for treating plants at manufacturing plant growing production with the above-mentioned preparation. The innovation enables to enhance action spectrum of obtained preparation to treat plants and raw material basis, increase coefficient of raw material usage in manufacturing preparation to treat plants. EFFECT: higher efficiency of production. 8 cl, 2 ex

Description

 The invention relates to a technology for the production of crop products, the means used for processing plants and the technology for producing the latter.

 A known method of producing crop products, comprising treating plants with an agent containing in an effective amount a preparation obtained from the biomass of micromycete Mortierella alpina by isolating the lipid fraction from it (Kulnev A.I., Sokolova E.A., Multipurpose stimulants of protective reactions, growth and development plants - Pushchino: ONTI PNC RAS, 1997).

 The disadvantage of this method is the low efficiency.

 A plant treatment agent is known that contains in an effective amount a preparation obtained from the biomass of micromycete Mortierella hygrophila by isolating a lipid fraction from it (RU 2058078 C1, 04/20/1996).

 The disadvantage of this tool is a narrow spectrum of action.

 A known method of manufacturing a plant treatment product, comprising extracting the biomass of micromycete Mortierella alpina with the release of lipid extract (RU 2075934 C1, 03/27/1997).

 The disadvantage of this method is the low utilization of raw materials.

 The technical result of the group of inventions is to increase the utilization rate of raw materials in the production of plant treatment products, which allows to simultaneously expand the spectrum of action of the resulting product, which, in turn, allows to increase the efficiency of crop production.

 This result is achieved in that in a method for producing crop products, comprising treating plants with an agent containing in an effective amount a preparation obtained from biomass of micromycete of the genus Mortierella, according to the invention, a mixture prepared by sequential extraction of biomass of micromycete Mortierella elongata by non-polar extractant in supercritical is used as a preparation condition, water, alkali, water, acid, water, alkali and water, followed by combining the solid residue with the first m extract.

 The same result is achieved by the fact that a plant treatment product containing in an effective amount a preparation obtained from biomass of micromycete of the genus Mortierella according to the invention as a preparation contains a mixture prepared by sequentially extracting biomass of micromycete Mortierella elongata by non-polar extractant in a supercritical state, water, alkali , water, acid, water, alkali and water, followed by combining the solid residue with the first extract.

 The same result is achieved by the fact that in the method for producing a plant treatment product, which extracts biomass of micromycetes of the genus Mortierella, according to the invention from micromycetes of the genus Mortierella, the species Mortierella elongata is used, extraction is carried out sequentially by a non-polar extractant in a supercritical state, water, alkali, water, acid, water, alkali and water, and the target product is obtained by mixing a solid residue with the first extract.

 Preferred embodiments of the latter method provide for the implementation of at least the first extraction in the field of ultrasonic vibrations. The desired options in this case are provided at the stage of at least the first alkaline extraction to create a field of ultrasonic vibrations by dispersing liquid ammonia in water under pressure below the pressure of saturated ammonia vapor at the extraction temperature; at the stage of acid extraction, the creation of a field of ultrasonic vibrations by dispersing in water concentrated acid or liquid hydrogen chloride or hydrogen fluoride; at the stage of at least the first water extraction, the creation of a field of ultrasonic vibrations by dispersing water vapor in water under pressure above the pressure of saturated water vapor at the extraction temperature.

 The preferred option allows you to intensify the processes, and those who want to carry out the intensification with minimal energy consumption.

 A method of manufacturing a plant treatment product is implemented as follows.

 The biomass of micromycete Mortierella elongata is extracted with a non-polar supercritical extractant, for example, carbon dioxide, nitrogen, nitrous oxide, argon or methane. It is preferable to carry out extraction in the field of ultrasonic vibrations generated, for example, by passing the flow of extractant through an ultrasonic whistle. The extraction in the field of ultrasonic vibrations contributes to the multiple acceleration of mass transfer processes, as it leads to the destruction of the cellular structure of the raw material with a sharp drop in its diffusion resistance and the development of the phase contact surface. Supercritical non-polar extractants make it possible to extract high molecular weight lipid compounds from biomass with minimal capture of related substances. Next, an extract is isolated from the extractant by lowering the temperature and / or pressure below critical values, and the solid residue is sequentially extracted with water, alkali, water, acid, water, alkali and water to obtain a solid residue, mainly represented by chitosan. The desired options for each stage of extraction provides for the creation of a field of ultrasonic vibrations in the extraction mixture. At the alkaline extraction stage, liquid ammonia is dispersed in water under pressure below the pressure of saturated ammonia vapor at the extraction temperature. This leads to the creation of a field of ultrasonic vibrations due to the energy of the phase transition of ammonia, which, while dissolving in water, forms ammonium hydroxide, which has pronounced basic properties. In the acid extraction step, dispersion in water of concentrated acid or liquid hydrogen chloride or hydrogen fluoride is provided. The dissolution of each of these substances in water is accompanied by the release of heat and vaporization in the extraction mixture, and liquid hydrogen chloride and hydrogen fluoride as well as ammonia pass into the gas phase before dissolution. As a result, ultrasonic vibrations are generated in the extraction mixture due to exothermic dissolution and phase transition. At the stage of water extraction, dispersion of water vapor in water under pressure above the pressure of saturated water vapor at the extraction temperature is provided. Under such conditions, the vapor will condense with the collapse of the bubbles and the creation of a field of ultrasonic vibrations. In each variant of creating a field of ultrasonic vibrations, the efficiency of using the energy of the phase transition is at least 90%, which is currently unattainable when generating ultrasonic vibrations by any of the other known methods. As mentioned above, the extraction in the field of ultrasonic vibrations in each case at each stage will contribute to the development of the contact surface of the phases, reduce diffusion resistance, intensify mass transfer processes and the most complete extraction of extractive substances. After extraction is complete, the solid precipitate is mixed with the first extract to obtain the desired product, which mainly consists of higher fatty acids and chitosan. In the obtained form, the agent can be effectively used to treat plants for a very short time, since its high activity probably depends on the synergistic interaction of eicosatetraenoic and eicosapentaenoic acids with chitosan, and both of these acids are easily oxidized with atmospheric oxygen. Therefore, in the manufacture of a commodity form, it is advisable to add at least an antioxidant, for example, butyloxytoluene, to the isolated preparation.

 It should be noted that the yield of the means for treating plants from a unit mass of raw materials by the proposed method is increased by combining two fractions, one of which has not been previously isolated and has not been used, each of which contains substances with reliably established activity. At the same time, concomitant substances, the composition of which was not determined, do not inhibit the activity of the active substances, which is confirmed by experimental verification.

 Example 1

The plant treatment agent is prepared by sequentially extracting the biomass of micromycete Mortierella elongata with supercritical carbon dioxide in the field of ultrasonic vibrations generated by an external source, water, sodium hydroxide, water, sulfuric acid in the field of ultrasonic vibrations created by dispersing oleum in water, water, caustic sodium and water, followed by mixing the solid residue with a CO ₂ extract. The resulting preparation is diluted in water and within an hour from the time of preparation it is used for treating Skifyanka wheat seeds in an amount of 0.5 mg / t in terms of the total content of chitosan, eicosatetraenoic and eicosapentaenoic acid. Compared with the control treated with the lipid extract of the biomass of micromycete Mortierella hygrophila, obtained according to RU 2058078, in the same amount, the germination is increased by 15%, the germination energy is increased by 35%. With additional treatment of vegetating plants at the stage of entry into the tube with the same means in an amount of 0.5 mg / ha in the same terms as compared to the control, the development of root rot of the Fusarium-cercosporellosis type was reduced by 20%, the development of powdery mildew was reduced by 30%, septorious spotting by 22%, productivity increased by 8 kg / ha.

 Example 2

The plant treatment agent is prepared by sequentially extracting supercritical nitrous oxide, water, ammonium hydroxide, water, hydrochloric acid, water, ammonium hydroxide and water into the field of ultrasonic vibrations of the biomass of micromycete Mortierella elongata. At the stage of extraction with nitrous oxide, a field of ultrasonic vibrations is created by passing it through an ultrasonic whistle. At the stage of water extraction, a field of ultrasonic vibrations is created when water vapor is dispersed and condensed in water. At the stage of extraction with ammonium hydroxide, a field of ultrasonic vibrations is created by dispersing boiling and dissolving liquid ammonia in water. At the stage of extraction with hydrochloric acid, a field of ultrasonic vibrations is created by dispersing liquid hydrogen chloride boiling and dissolving in it in water. After completion of the extraction, the solid residue is mixed with the N ₂ O extract. A filler, an anti-caking agent, a wetting agent and an antioxidant are added to the resulting product, and then they are tabletted and packaged under argon. After dissolving in water, the seeds are treated with Korolek cucumber seeds at a rate of 1 g / t in terms of the total content of chitosan, eicosatetraenoic and eicosapentaenoic acids and on vegetative plants at a rate of 10 mg / ha. As a control, treatment of the same plant species at the same time and in the same dosage is carried out with a similar preparation containing, as a source of active principle, the lipid extract of the biomass of micromycete Mortierella alpina. Compared to the control, vagality was increased by 8%, powdery mildew was completely eliminated in both cases, the strick virus was completely eliminated, black bacterial spotting diseases were reduced by 87%, gall nematode infection remained at the control level, and the number of fruits was increased by 10%.

 Thus, the proposed group of inventions, while expanding the raw material base, allows to increase the yield of a plant treatment product with an expanded spectrum of action and greater efficiency in the production of crop products.

Claims (8)

 1. A method of processing plants in the production of crop products, comprising treating with an agent containing in an effective amount a preparation obtained from biomass of micromycete of the genus Mortierella, characterized in that the mixture is prepared by sequential extraction of biomass of micromycete Mortierella elongata by a non-polar supercritical extractant , water, alkali, water, acid, water, alkali and water, followed by combining the solid residue with the first extract.  2. A plant treatment product containing in an effective amount a preparation obtained from biomass of micromycete of the genus Mortierella, characterized in that as a preparation it contains a mixture prepared by sequential extraction of the biomass of micromycete Mortierella elongata with a non-polar extractant in a supercritical state, water, alkali, water , acid, water, alkali and water, followed by combining the solid residue with the first extract.  3. A method of manufacturing a plant treatment product, comprising extracting biomass of micromycetes of the genus Mortierella, characterized in that the species Mortierella elongata is used from micromycetes of the genus Mortierella, extraction is carried out sequentially by a non-polar extractant in the supercritical state, water, alkali, water, acid, water, alkali and water, and the target product is obtained by mixing a solid residue with the first extract.  4. The method according to claim 3, characterized in that at least the first extraction is carried out in the field of ultrasonic vibrations.  5. The method according to p. 4, characterized in that at the stage of at least the first alkaline extraction, the field of ultrasonic vibrations is created by dispersing liquid ammonia in water under pressure below the pressure of saturated ammonia vapor at the extraction temperature.  6. The method according to claim 4, characterized in that at the stage of acid extraction the field of ultrasonic vibrations is created by dispersing concentrated acid in water.  7. The method according to claim 4, characterized in that the stage of acid extraction, the field of ultrasonic vibrations is created by dispersing liquid hydrogen chloride or hydrogen fluoride in water.  8. The method according to p. 4, characterized in that at the stage of at least the first aqueous extraction, a field of ultrasonic vibrations is created by dispersing water vapor in water under pressure above the pressure of saturated water vapor at the extraction temperature.