RU2704455C1 - Plant growth stimulant production method from plant raw material - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: invention relates to the field of biotechnology. Invention represents a method for production of plant growth stimulant from plant raw materials, including plant raw material grinding, mixing of raw materials with water, separation of pine extract by filtration. According to the invention, the vegetal raw material aqueous solution extraction is carried out at room temperature 23±0.5 °C in darkness for 24±0.25 hours with irrigation module – 1:(20±2). Plant raw material is represented by fir tree needles.EFFECT: invention simplifies the process of producing plant growth stimulants without using organic solvents.1 cl, 7 ex

Description

The invention relates to agriculture, namely to biologically active substances with growth-promoting activity.

The trend towards the use of plant-derived processed products is constantly increasing. Coniferous wood as a waste of the logging industry is now increasingly being used in various fields.

Essential oils of some types of conifers are of great commercial importance and have potential antibiotic, anticarcinogenic and sedative effects. Biologically active substances obtained from needles have a wide range of uses in animal husbandry, medicine and cosmetology.

A known method of obtaining a plant protection product from spruce needles (Picea excelsa L.) (RU 2154942, class A01N 61/00, A01N 65/00, publ. 08.27.2000), including the extraction of needles with ethyl alcohol, the selection of neutral substances from the alcohol extract alkaline hydrolysis, extraction with hexane, column chromatography of the hexane extract in a hexane-ether system with increasing ether content.

The disadvantage of this method is the use of environmentally unsafe organic solvents, the difficulty of selecting hexane and hexane-ether fractions, the duration of the process.

Closest to the proposed invention is a method for producing a plant growth stimulator (RU 2298327, class A01N 65/00, А01Р 21/00, А01Р 3/00, publ. 05/10/2007), comprising the active substance in the form of water-soluble salts of triterpene acids, a mixture sodium or potassium salt of triterpenic acids as the active substance and neutral components of needles at a ratio of 1: 0.1-0.2, respectively, with the following ratio of components, wt. %: active substance - 0.025-25, aqueous-alkaline solution - the rest.

However, this method requires a significant consumption of reagents (0.5-20% aqueous solutions of hydroxide or 1-20% aqueous solutions of alkali metal carbonate in the ratio of raw materials: extractant 1: 5-12), which significantly complicates the process and makes it expensive.

The technical problem of the invention is to obtain a new preparation based on green spruce with an expanded range of applications and a lower consumption rate for use on various crops.

The technical result is a simplification of the process of obtaining plant growth stimulants without the use of organic solvents, as well as obtaining a biological product environmentally friendly, affordable and cost-effective.

The posed problem and the indicated technical result are achieved by the fact that the method of obtaining a plant growth stimulator from plant materials includes grinding plant materials, mixing the raw materials with water, separating the coniferous extract by filtration. According to the invention, the extraction of an aqueous solution of plant material is carried out at room temperature 23 ± 0.5 ° C in the dark for 24 ± 0.25 hours with a water module of 1: (20 ± 2). At the same time, spruce needles are used as plant materials.

Carrying out the extraction of an aqueous solution of plant materials at room temperature 23 ± 0.5 ° C in the dark provides the maximum output of the needles components into the solution, providing the growth-promoting effect of the coniferous extract. At a temperature of less than 22.5 ° C, a decrease in the content of extractive substances in the solution occurs, and at a temperature of more than 23.5 ° C, an increase in the content of extractive substances in the resulting preparations is not observed.

The implementation of the extraction within 24 ± 0.25 hours allows you to get extracts with the highest content of extractive substances with growth-promoting activity. Reducing the duration of extraction to 23.75 hours does not provide a sufficient content of extractive substances in the solution, therefore, the obtained extracts will have less growth-promoting activity. An increase in the duration of extraction to 24.25 hours does not lead to an increase in the content of extractive substances in the solution; therefore, it is impractical to increase the time of the process.

Carrying out the extraction with a hydromodule 1: (20 ± 2) provides the maximum yield of needles components in the solution, providing the growth-promoting effect of the obtained extract. In addition, the extracts obtained using this hydraulic module retain their activity during storage at a temperature of 4 ± 0.5 ° C for a month. When the hydraulic module decreases below 1:17, there is no noticeable increase in the content of extractives in the solution, however, the solutions must be diluted 5,000 times before use, which reduces the activity of the extract during storage for 2 weeks at a temperature of 4 ± 0.5 ° C, after which precipitate precipitates in the solution, and the growth-promoting properties are lost. With an increase in the hydromodule over 1:23, the content of extractive substances in the solution decreases; during storage, the solutions retain their growth-promoting activity for 1.5 weeks at a temperature of 4 ± 0.5 ° С, after which a precipitate precipitates in the solution, and the growth-promoting properties are lost.

Example 1

A weighed portion of chopped plant material (spruce needles) (2 g) was poured into a beaker and poured into 40 ml of distilled water, the suspension was stirred to ensure uniform wetting of the particles of green wood and left for 24 hours for extraction at a temperature of 23 ± 0.5 ° C and no direct sunlight.

After extraction is complete, the mixture is filtered from suspended particles through a folded paper filter. To determine the growth-promoting activity of the extracts, various dilutions of the obtained coniferous extracts were used in a series of experiments on germinating flax seeds in Petri dishes and on a sand culture.

The content of A.C. in the resulting coniferous extract is 14.8 mg / ml.

When dilution of the initial extract with distilled water in a ratio of 1: 1000 was used, the growth of crude biomass in experiments conducted in Petri dishes increased by 25.5% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 28.3% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sandy culture, germination increased by 30% compared with the control experiment without growth stimulants.

Example 2

The experiment was carried out analogously to example 1 except that the process was carried out for 23 hours.

The content of A.C. in the resulting coniferous extract is 13.5 mg / ml.

When using a dilution of the initial extract with distilled water in a ratio of 1: 1000, the growth of crude biomass in experiments conducted in Petri dishes increased by 21.2% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 22.1% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sandy culture, germination increased by 23% compared with the control experiment without growth stimulants.

Example 3

The experiment was carried out analogously to example 1 except that the process was carried out for 25 hours.

The content of A.C. in the resulting coniferous extract is 14.7 mg / ml.

When dilution of the initial extract with distilled water in a ratio of 1: 1000 was used, the growth of crude biomass in experiments conducted in Petri dishes increased by 24.3% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 26.8% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sand culture, germination increased by 26% compared with the control experiment without growth stimulants.

Example 4

The experiment was carried out analogously to example 1 except that the process was carried out at a temperature of 21 ± 0.5 ° C.

The content of A.C. in the resulting coniferous extract is 11.9 mg / ml.

When using dilution of the initial extract with distilled water at a ratio of 1: 1000, the growth of crude biomass in experiments conducted in Petri dishes increased by 17.6% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 21.5% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sandy culture, germination increased by 21% compared with the control experiment without growth stimulants.

Example 5

The experiment was carried out analogously to example 1 except that the process was carried out at a temperature of 25 ± 0.5 ° C.

The content of A.C. in the resulting coniferous extract is 14.5 mg / ml.

When using a dilution of the initial extract with distilled water in a ratio of 1: 1000, the growth of crude biomass in experiments conducted in Petri dishes increased by 23.7% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 24.9% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sandy culture, germination increased by 23% compared with the control experiment without growth stimulants.

Example 6

The experiment was carried out analogously to example 1 with the exception that the process was carried out at a water ratio of 1:10.

The content of A.C. in the resulting coniferous extract is 12.6 mg / ml.

When using a dilution of the initial extract with distilled water in a ratio of 1: 1000, the growth of crude biomass in experiments conducted in Petri dishes increased by 3.2% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 3.7% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sandy culture, germination increased by 5% compared with the control experiment without growth stimulants.

Example 7

The experiment was carried out analogously to example 1 except that the process was carried out at a hydraulic unit of 1:30.

The content of A.C. in the resulting coniferous extract is 13.7 mg / ml.

When using dilution of the initial extract with distilled water in a ratio of 1: 1000, the growth of crude biomass in experiments conducted in Petri dishes increased by 12.5% (compared to the control experiment without growth stimulants), and the average length of the sprouts increased by 16.9% (in relation to the control experiment without growth stimulants).

When germinating flax seeds in a sandy culture, germination increased by 15% compared with the control experiment without growth stimulants.

Claims (2)

1. A method of obtaining a plant growth stimulator from plant materials, including grinding plant materials, mixing raw materials with water, separating the coniferous extract by filtration, characterized in that the extraction of an aqueous solution of plant materials is carried out at room temperature 23 ± 0.5 ° C in the dark for 24 ± 0.25 hours with a hydraulic module - 1: 20 ± 2. 2. The method according to p. 1, characterized in that the needles of spruce are used as plant materials.