RU2675932C1 - Plant growth stimulant - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture and relates to a method for producing a plant growth biostimulator. Phytostimulant is obtained by cultivating the yeast Nadsoniella nigra in the medium containing: (NH)SO– 3.0 g/l; KHPO– 2.0 g/l; MgSO⋅7HO – 0.2 g/l; sucrose – 20 g/l; yeast autolysate – 10.0 g/l. Medium pH 3.5, the temperature of cultivation (26÷27) °C. Inoculum of Nadsoniella nigra is stimulated with ultrasound at frequency of 880 kHz and power density in the range of 0.1–1.0 W/cmfor 30÷120 s before cultivation. Next, the homogenization in the culture fluid in the ultrasound field is carried out with frequency of 22 kHz and power density of at least 10 W⋅cm. Before using the phytostimulant is diluted with water and used for soaking seeds and/or treating vegetative plants.EFFECT: proposed phytostimulant is optimal both for seed germination and for increasing the growth and development of the plant.1 cl, 3 dwg, 3 ex

Description

The invention relates to agriculture and relates to a method for producing a plant growth biostimulator based on a complex of substances synthesized by Nadsoniella nigra yeast.

The objective of the present invention is to develop a method of obtaining an effective phytostimulator for intensifying the growth and development of plants.

This goal is achieved by ultrasonic stimulation of the inoculum of the cultivation of yeast Nadsoniella nigra, (Akopyan V.B., Stupin A.Yu., Khabensky B.M., Sergeeva A.V. Mordvinova E.M. Method for obtaining mechanically dependent human growth factor Patent of the Russian Federation No. 2523908, 2012) with a frequency of 880 kHz, a power density in the range of 0.1-1.0 W / cm ³ for (30 ÷ 120) s, culturing the strain in a medium containing: (NH ₄ ) ₂ SO ₄ - 3, 0 g / l; K ₂ HPO ₄ - 2.0 g / l; MgSO ₄ ⋅ 7H ₂ O - 0.2 g / l; sucrose - 20 g / l; yeast autolysate - 10.0 g / l., within 7 days from the beginning of fermentation at a pH of 3.5 and a temperature of (26 ÷ 27) ° С until the ASW reaches - (18 ÷ 25) g / l., after which they were homogenized a suspension in the ultrasound field with a frequency of 22 kHz and a power density of at least 10 W⋅cm ^-3 , and the resulting homogenate containing a complex complex of substances, including melanin and other substances synthesized by yeast, was diluted with water in a ratio of 1: 1 and used in as a phytostimulator for seed treatment, or within 1: 100 for additional processing with diluted solution Actively growing plants.

A known method of producing biostimulants of root formation of peas from dried and ground oat roots by extraction with a 50% solution of ethyl alcohol for 1 hour in a boiling water bath, filtration with concentration under vacuum, purification from impurities by diethyl ether, repeated filtration and drying in air. (Pavlovskaya N.E., Solokhina I.Yu. A method for producing a pea root stimulant. Patent RU 2500105, 2012). According to the authors, under the influence of the stimulator, the length and mass of pea roots significantly increase. However, the method of obtaining a biostimulator is quite long and effective only for stimulating pea roots.

A known method of obtaining a biostimulator of growth and development of plants from humus-containing substances (Titov I.N. A method of obtaining a biostimulator of growth and development of plants from humus-containing substances. Patent RU 2253641, 2005). The method is multi-stage, difficult to implement, and is mainly aimed not at stimulating plants, but at increasing the biomass of beneficial soil microorganisms.

There is a method of obtaining a natural plant growth regulator from organic plant waste from vegetable and / or flower farms for a long (8 ÷ 16) h by extraction with hot (60 ÷ 100) ° C water with the introduction of the complex of trace elements Fe, Cu, Zn, Mn, F into the extract and vitamins. The regulator, according to the author, provides a reduction in growing time and an increase in agricultural productivity. plants 1.5-2 times (Yakovenko E.Ya. The method of obtaining a natural plant growth regulator Patent RU 2109446, 1993.), however, neither the method nor the composition of the regulator can be standardized, since the regulator is made from a variety of wastes, and therefore its effect cannot be predictable with a sufficiently high probability.

There is a method (Perminova I.V., Kulikova N.A., Filippova O. I. Silicon-humic plant growth regulator and its use for treating plants Patent RU 2529151, 2005) for obtaining a plant growth regulator that can improve plant resistance to stress, but not aimed at realizing the internal reserves of growth and development of these plants.

A known method of producing a biostimulant from chitin (Mukatova M.D., Boeva T.V., Bayrambekov Sh.B., Kirichko N.A., Uteushev R.R. Biostimulator of growth of agricultural plants from crustacean chitin and a method for producing biostimulant for the growth of agricultural plants from crustacean chitin. Patent RU 2504953 2012) mainly for melons and vegetables. The method is multi-stage, difficult to implement, and the use of a biostimulator is limited to the seeds of melons and vegetables.

J. Trends in plant science. 2014, 19, №12, p. 789-797). В описании к упомянутому патенту РФ 2092547 привлекает особое внимание неправдоподобно многообещающая информация о стимуляции выращивания кормовых дрожжей на гидролизате хвойной древесины, содержащей обычно смолу, обладающую бактериостатическим и бактерицидным эффектом (Ступин, А.Ю. Суспензии природных смол и смолоподобных веществ М.: Изд-во ФГНУ «Росинформагротех», 2010. - 67 с.).The patent (Vinarov A.Yu., Ipatova T.V., Mirskova A.N., Levkovskaya G.G. Method for activating microbiological processes, growth of plants and plant cells. RF patent 2092547, 1995) describes a method for activating microbiological processes, growth plants and plant cells, where as an activator a mixture of three chemical compounds belonging to the group of ammonium salts of aryl acetic acids is used. Obviously, this activator can be considered a nonspecific stimulator (Korzhevenko G.N., Akopyan V.B., Shangin-Berezovsky G.N. Hidden reserve of growth and development of living systems: Vestnik of agricultural science, 1988, No. 4 (380), p. 96-105), as well as mechanical effects on seeds, their treatment with alcohols, acids, organic and inorganic compounds, suspensions of microorganisms and certain products of their metabolism, high pressure, ultraviolet radiation, magnetic and electric fields, radiation (Belkin S .Yu., Postnikova S. ., Ivakhnenko A. A. Method of presowing treatment of seeds. RF patent 2399182; Derkachev IP, Takunov IP method for thermal disinfection of lupine seeds from anthracnose pathogen. RF patent №2249935; AM Kuzin “Stimulating effect of ionizing radiation on biological processes ”M., Atomizdat, 1977, 134 pp .; Potapenko I.A., Andreichuk V.K., Rudnev A.E., Ivashchenko I.S., Smelyakov E.A. Seed processing method RF patent No. 2174296; Hakobyan V.B., Rykhletskaya O.S., Shangin - Berezovsky G.N., Abramov O.V. “Germination and yield of tomatoes depending on seed treatment with ultrasound and para-aminobenzoic acid” Reports VASKHNIL, 1987, No. 8, p. 24-25 .; Vereshchagin A.L., Kropotkina V.V. Plant Growth and Development Stimulator RF Patent No. 2350076, 2007, A. Denisov Stimulator and method of stimulating the growth and development of plants WO 2014062079 A1, 2012, Martynenko V.I., Bondarev Yu.P., Kuznetsova I.F., Tolmacheva N.A., Semenov AM, Shiltsova M.A. Plant growth biostimulator symbiont-universal and community of microorganisms. Patent RU 2100932. 1998 Arnao M.V.,

J. Trends in plant science. 2014, 19, No. 12, p. 789-797). In the description of the aforementioned RF patent 2092547, incredibly promising information on the stimulation of the cultivation of fodder yeast on a coniferous wood hydrolyzate containing usually a resin having a bacteriostatic and bactericidal effect (Stupin, A.Yu. Suspensions of natural resins and resinous substances M: Publ. in the Federal State Institution "Rosinformagrotech", 2010. - 67 p.).

A known method (Akopyan V.B., Stupin A.Yu., Khabensky B.M., Sergeeva A.V. Mordvinova E.M. Method for obtaining mechanically dependent human growth factor Patent of the Russian Federation No. 2523908, 2012) stimulation of the cultivation of Saccharomyces cerevisiae cells ultrasound with a frequency of 880 kHz (approved for biomedical use. IEC 62127-1: 2007 Ultrasound) and a power density in the range of 0.1-1.0 W / cm ³ when transferred to a fermenter. The method is effective, however, it is aimed only at stimulating a certain type of yeast.

A known method (PROTOTYPE) of cultivation of the yeast Nadsoniella nigra (Avchieva P. B., Butorova I. A., Avchiev M. I., Deev S. V., Zorina L. V. Method for producing melanin RF patent No. 2278163, 2004), aimed at producing melanin - a pigment with high antioxidant and antitumor activity and including the stages of its biosynthesis, isolation and purification.

The claimed plant growth and development stimulator is obtained as a result of cultivation of the Nadsoniella nigra yeast, after stimulation of the inoculum of the cultivation of the Nadsoniella nigra yeast, by ultrasound at a frequency of 880 kHz, a power density in the range of 0.1-1.0 W / cm ³ for (30 ÷ 120 ) c, culturing the strain in a medium containing: (NH ₄ ) ₂ SO ₄ - 3.0 g / l; K ₂ HPO ₄ - 2.0 g / l; MgSO ₄ ⋅ 7H ₂ O - 0.2 g / l; sucrose - 20 g / l; yeast autolysate - 10.0 g / l. within 7 days from the start of fermentation at a pH of 3.5 and (26 ÷ 27) ° C, until the ASV is reached - (18 ÷ 25) g / l, after which the suspension is homogenized in an ultrasound field with a frequency of 22 kHz and power density not less than 10 W⋅cm ^-3 , and the resulting homogenate is diluted with water in a ratio of 1: 1 and used as a phytostimulator for seed treatment, or within 1: 100 for additional processing, actively vegetating plants.

The invention is illustrated by examples, which are not, however, restrictive.

Example 1

Oat seeds (Figure 1), to assess the stimulation of root formation during germination, were soaked

(1) - in tap water (control),

(2) - in a solution of a phytostimulator diluted in

ratio 1:10,

(3) - in a solution of a phytostimulator diluted in

1: 1 ratio.

Samples were kept in a humid chamber at 22 ° C for 3 days. As can be seen from the data presented, on the third day after the soaking of the roots of sprouted oat seeds in sample (2) is 3-5 times longer than in the control, and in sample (3) 7-10 times longer than in the control.

Example 2

The seeds of the Far East 27 cucumbers were germinated in peat pots filled with soil for FASCO seedlings. (Fig. 2)

In control samples, germination was carried out using traditional methods of agricultural technology. In experimental conducted 2-fold watering with a drug diluted in a ratio of 1: 100. The first treatment was carried out when sowing seeds into the soil, the second - at the stage of formation of the first two cotyledon leaves.

As follows from FIG. 2, in the control samples (a) on the 7th day of germination, seedlings of cucumbers were not yet observed, while in the experimental samples the formation of the first two cotyledonous leaves was noted.

On the 14th day of cultivation (b), in the test specimens on the sprouts of cucumbers the formation of one real leaf was noted, and in the control variant the formation of only the first cotyledon leaflets was observed.

Thus, a 2-fold treatment of the seedlings with the drug provided an acceleration in the growth of cucumbers by 7 days.

Example 3 Soybean seeds (Fig. 3) were spread on control cotton pads moistened with water (a) and on cotton pads moistened with a phytostimulator at a dilution of 1: 100 (b). After seed germination (on the 4th day after planting), the seedlings were covered with soil, and subsequently watered only with water. As follows from the above data, the phytostimulator increases the germination of seeds, accelerates the growth and development of plants, which leads to an increase in their green mass (a) in comparison with the control sample (b).

Thus, the above information indicates that the presented invention has the claimed properties, and the combination of distinctive features of the described method ensures the achievement of the specified result.

As a result of the analysis of the prior art to obtain stimulators of plant growth and development, an analogue characterized by features identical to all the essential features of the claimed invention was not found, therefore, the claimed invention meets the condition of "novelty."

An additional search for known solutions showed that the claimed invention does not follow explicitly from the prior art for a specialist, as new processing conditions are selected, as well as the totality and sequence of technological processes providing a new stimulator of plant growth and development. Therefore, the claimed invention meets the condition of "inventive step".

For the claimed method, in the form as described in the above claims, there are no obstacles to its implementation in practice using modern technical means. Therefore, the claimed invention meets the condition of "industrial applicability".

The present invention expands the diversity of possibilities, providing the optimal choice of a stimulator of seed germination, growth and development of plants.

Claims (1)

Phytostimulator of plant growth, characterized in that it is obtained by culturing the yeast Nadsoniella nigra in an environment of the following composition: (NH ₄ ) ₂ SO ₄ - 3.0 g / l; K ₂ HPO ₄ - 2.0 g / l; MgSO ₄ ⋅ 7H ₂ O - 0.02 g / l; sucrose - 20 g / l; yeast autolysate - 10.0 g / l, with a pH of 3.5 and a temperature of 26 ÷ 27 ° C for 7 days, while the seed before cultivation is subjected to stimulation with ultrasound at a frequency of 880 kHz, power density in the range of 0.1- 1.0 W / cm ³ for 30 ÷ 120 s, and after cultivation they are homogenized in a culture fluid in an ultrasound field with a frequency of 22 kHz and a power density of at least 10 W cm ^-3 , the resulting phytostimulator is diluted with water in a ratio of 1 before use: 1 for soaking seeds and / or in a ratio of 1: 100 for processing vegetative plants s.

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