RU2694678C1 - Method for increasing plant productivity and resistance to phytopathogens when using animal elicitors - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: disclosed is a method for increasing plant productivity and resistance to phytopathogens, which involves preparing a biologically active composition from compost oligochaetes and treating seeds or vegetative plants. Biomass of the mixed population of the selected species Eisenia fetida and native species of the genus Eisenia is used as biological products of said substances: E. andrei, E. nordenskioldi and Eisenia spp. For biologically active composition biomass oligochaeta is mixed with crystalline potassium chloride with ratio of parts equal to 20:1.

EFFECT: invention allows to increase productivity of crops, as well as resistance of plants to a complex of diseases.

1 cl, 8 tbl

Description

The invention relates to agriculture, namely plant growing and plant protection, and is intended to enhance resistance to pathogens and increase the productivity of agricultural crops.

There are ways to increase the yield of agricultural crops, consisting in the use of funds of different origin (Ryabchinskaya TA, Zimina TV. Means regulating the growth and development of plants in agricultural technologies of modern crop production // Agrochemistry. 2017. No. 12. P. 62 -90). A special place among them is occupied by biological multifunctional drugs, the principle of action of which lies in the use of physiologically active elicitor substances isolated from the culture media of bacteria, animal or plant materials. Thus, Epin Extra, Zircon and Domotsvet preparations, based on hydroxycinnamic acids contained in some plants, have a wide spectrum of action and contribute to the growth of growth processes, immunity and productivity of agricultural crops. When processed with these preparations, plants are less affected by diseases and are distinguished by a strong root system and good foliage, while increasing plant resistance to pesticidal stresses. The increase in the yield of grain crops in their application is 8-16% (Popov M.I., Zavadskaya A.I. Phyto-soothing and growth-stimulating effect of epin on cabbage // Biologization. Status and Prospects: Mater. Report. International. Scientific and Practical. Conf. ., Krasnodar, September 18-22, 2000, Krasnodar, 2001. C 41-42; Vakulenko, VV Growth regulators and micronutrient fertilizers — factors for increasing crop productivity, Plant Protection and Quarantine. 2015. No. 2. P. 13- 14; Malevannaya NN The drug Zircon - an immunomodulator of a new type // Use of the drug Zircon in the production of agricultural products Natural products. Abstracts of reports of scientific and practical conferences, M., 2004, p. 18-20).

Oligosaccharides of animal origin, chitosans, have an elicitor polyfunctional effect on plants. On the basis of these drugs are developed: Narcissus, Phytochite, Phytochite T, Hitosar, Eco-gel. Chitin (poly-N-acetylglucosamine) and the product of its deacetylation (chitosan) are widely distributed in nature and are part of the cell walls of fungi and integument of arthropods. Various chitosans are able to regulate the expression of many genes of a plant cell, controlling the formation of antipathogenic substances with direct immunizing action (Tyuterev SL. Induced phytoimmunity, molecular mechanisms and the possibility of use in plant growing // Problems of Experimental Botany // Kuprevichsky Readings VI. Minsk: Technology, 2007. p. 5-54).

Another way to increase plant productivity and disease resistance is the treatment of seed material or vegetative plants with a salt extract solution of biologically active substances from the biomass of soil oligochaetes of the Nicodrilus caliginosus species. The product is obtained by treating the biomass with potassium chloride in crystalline form in a ratio of 30: 1 (Patent RU No. 2438283. A method for increasing plant productivity and disease resistance. Ryabchinskaya TA, Kharchenko G.L., Bobreshova I.Yu., Sarantseva N .A. Publ. 10.01.2012, Bull. №1). A sufficient amount of biologically active substances is extracted from this type of worm, however, due to its characteristic biological features, its vermicultivation is very difficult.

The closest to the claimed object is a method of increasing plant productivity and plant resistance to phytopathogens when treating seeds and plants with an agent derived from biologically active substances extracted from the biomass of the Eisenia fetida oligochaete population (Patent RU No. 2515635. Method of increasing plant productivity and plant resistance to phytopathogens. Ryabchinskaya, T.A., Alekhin, V.T., Kharchenko, G.L., Bobreshova, I.Yu., Sarantseva, N.A., Published on May 20, 2014, Bull. The disadvantage of this prototype is the use of the selected compost worm of a specific species of Eisenia fetida, the maintenance of a pure culture of which is very difficult, since with the applied feed various species of native oligochaetes get into the biomaterial. In addition, the recoverable amount of biologically active substances from the biomass of worms is not high enough, as a result of which the immunizing effect is not strong enough.

The purpose of the present invention is to enhance the resistance of plants to phytopathogens and increase their productivity when treated with an agent derived from worm biomass that is heterogeneous in species composition.

The present invention is the induction of immune responses of plants against phytopathogens and stimulation of growth processes when using funds obtained from the biomass of compost worms mixed population.

The technical result is a method of increasing plant resistance to phytopathogens and their productivity when using a new biomass-based agent of a mixed population of several types of oligochaeta, which is obtained with a high degree of extraction of biologically active substances using an increased concentration of potassium chloride.

The result is achieved by the fact that a mixed population of surface-inhabiting oligochaete species of the genus Eisenia is used as bioproducts of biologically active substances, where, besides the main cultivated species. Eisenia fetida, representatives of this genus of native fauna are present: oligochaete E. andrei, E. nordenskioldi and Eisenia spp. in the amount of up to 40% of the total biomass. To obtain a biologically active biomass composition, oligochaeta is mixed with crystalline potassium chloride in a ratio of 20: 1.

The method is implemented in the implementation of successive stages:

1. Three to fourfold washing of compost oligochaete biomass of mixed population from debris under running water with a temperature not higher than 20 ° С.

2. Mixing this biomass oligochaete with crystalline potassium chloride at a ratio of 20: 1 parts at an exposure of 30 minutes.

3. Spin the formed salt extract of biologically active substances from the biomass oligochaeta.

4. Filtration of the composition through a dense filter.

5. Mixing the obtained extract containing the complex of biologically active substances, including the mineral component potassium, with ethanol, which serves as a preservative-stabilizer, in a ratio of 3: 1.

6. Production of 0.1% colloidal solution-hydrogel of polyacrylamide (PAAG) as a surfactant and adhesive by mixing 1 part of dry polyacrylamide in 99 parts of distilled water and infusing it for 4 hours.

7. Mixing the obtained composition with PAG in a ratio of 1: 9.

8. Presowing seed treatment or spraying of vegetative plants.

Comparative chemical and analytical studies of extracts of the new tool and the prototype showed that the content of the main active substances with elicitor action (amino acids, carboxylic acid amines) is similar, and the share of individual substances in the new tool exceeds their quantitative presence in the prototype (Table 1) .

This is evidence of the eligibility of using populations of different types of oligochaetes as bio-producers of biologically active substances for the production of multifunctional tools and their practical application in plant growing.

The invention is illustrated by the following examples:

Experience 1. The purpose of the experiment was to comparatively evaluate the immunizing and growth-regulating effects of the prototype and the new agent in the treatment of spring barley seeds in the laboratory.

The experiment showed that the use of a new agent causes the induction of immune responses of barley seedlings, the effect of which exceeds the immunizing activity of the prototype - means based on E. fetida by 6.1 abs. % or in relative values - by 21.2%. Thus, the protective effect of the new agent at the same dosage exceeds the indicators of the prototype. At the same time, a significant growth activating effect of the new agent was noted, which, according to different indicators, exceeded the values of the prototype by 2.5-7.3% (Table 2).

Experiment 2. In the field experiment, the biological effectiveness of a new agent was compared with the product based on E. fetida when treating vegetative plants of winter wheat in spring in the tillering phase.

Two weeks after the treatment of the plants, a higher growth-stimulating activity of the new agent was noted compared with the prototype (by 7.5%). In relation to root rots, a significant fungistatic effect was achieved - up to 44.8%, which is 5.1% higher than the efficiency of the prototype (Table 3).

The prolonged systemic immunizing effect of the new agent in relation to diseases of the leaf apparatus also exceeded the indicators of the control and the prototype. At the same time, this action persisted until the beginning of ripening of the grain in the phase of milky-wax ripeness, when the reduction in infestation of the flag leaf by septoria in the variant using the new tool was 8.2% higher than when using the prototype (table 4).

As a result, due to a higher polyfunctional effect of the new agent (by 2-6%), consisting in the activation of growth and photosynthetic processes, as well as a prolonged immunizing effect, a more significant increase in the yield of winter wheat grain was achieved - by 1.2 t / ha ( table 5).

Experience 3. In a field experiment, the biological effectiveness of a new agent was evaluated in comparison with an agent based on E. fetida in the treatment of vegetative soybean plants.

Evaluation of the photosynthetic activity of plants using the N-tester showed that the new tool compared to the prototype more effectively activated the accumulation of chlorophyll in the leaves of plants (photosynthesis productivity increased by 27 units), while the area of the assimilation surface of the leaves was also higher - by 4.3 % relative to the prototype (table 6). Processing plants was carried out in the phase of two true leaves.

Immunizing effect when using both the prototype and the new agent was quite high and remained for 3 months, until the leaves turned yellow. The biological efficacy of a new agent in assessing during the growing season, as a rule, exceeded the immunizing effect of the prototype by 7–18% (Table 7).

As a result of the polyfunctional effect of the tested agents, a high productivity of the culture was obtained, and when using a new agent, it exceeded the efficiency of the prototype by 1.2 centners / ha or 6.5%. This effect was achieved due to a more significant positive effect of the new tool on the photosynthesis productivity in the leaf apparatus, the processes of formation and growth of generative organs (Table 8).

Thus, as a result of laboratory and field studies, a higher efficacy of the new tool based on the oligochaetes of the mixed population of the selected Eisenia fetida species and indigenous local forms, obtained at a higher the degree of extraction of active substances by increasing the concentration of potassium chloride. With all the comparative tests of the prototype and the new facility, higher rates of growth and photosynthetic activity, an immunizing effect and a positive effect on the yield structure and productivity of agricultural crops were noted. The protective effect of the new tool increased to 7-18% relative to the prototype, the yield of grain crops and soybeans increased by 6-10%.

Claims (1)

A method for increasing plant productivity and plant resistance to phytopathogens, involving the preparation of a biologically active composition from the biomass of compost oligochaeta and seed treatment or vegetative plants, characterized in that the biomass of the mixed population of the selected species of Eisenia fetida and native species of the genus Eisenia: E. andrei, E. nordenskioldi and Eisenia spp. in an amount up to 40%, while to obtain a biologically active biomass composition, oligochaete is mixed with crystalline potassium chloride at a ratio of 20: 1 parts.