RU2618325C2 - Method of preplanting cultivation of seeds for improvement of their stability to ultraviolet radiation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method of preplanting cultivation of seeds includes seeds soaking in solutions of biologically active preparations. Water extracts of plants are used as biologically active preparations, namely, Ledum rhizomes in the fourth-fifth decimal homeopathic dilutions in concentration of 10^-2–10^-4 % on weight ratio of vegetal raw materials, or red bilberry in seventh-ninth decimal homeopathic dilutions in concentration of 10^-5–10^-7 % on weight ratio of vegetal raw materials, or bearberry in the eighth-tenth decimal homeopathic dilutions in concentration of 10^-6–10^-8 % on weight ratio of vegetal raw materials, or black crowberry in seventh-ninth decimal homeopathic dilutions in concentration of 10^-5–10^-7 % on weight ratio of vegetal raw materials, or alder shrubby in ninth-eleventh decimal homeopathic dilutions in concentration of 10^-7–10^-8 % on weight ratio of vegetal raw materials, at that, the solutions of biologically active substances for seeds cultivation are obtained by sequential decimal dilutions and dynamic optimization.

EFFECT: invention provides to increase stability of crops to impact of ultraviolet radiation and to improve sowing quality of seeds.

1 cl, 5 tbl, 5 ex

Description

The invention relates to agriculture and is intended to increase the germination of seeds of cultivated plants, increase the resistance of seedlings to UV radiation, and can be used in crop production, vegetable growing, fruit growing, green building, forestry.

Ultraviolet (hereinafter - UV) radiation is an important environmental factor affecting plants. Due to the fact that UV photons have enough energy to ionize atoms, they are absorbed by all biologically important structures, determining the high biological activity of this type of radiation. This issue is of particular importance for high mountain regions, where a specific light regime with a high content of UV rays in the light flux leads to negative reactions of plants (see Aknazarov O.A. Effect of ultraviolet radiation on the growth, morphogenesis and hormone level of high mountain plants: Abstract ... Diss. Doctor of Biological Sciences. Dushanbe, 1991.47 p.).

The effects caused by UV rays are found at all levels of plant organization. They are based on the mechanisms of damage to biological molecules due to changes in DNA, as well as inactivation of proteins. Also, UV rays cause photodamage of phospholipids of plasma membranes and their oxidation by the free-radical mechanism. In addition to proteins, lipids and DNA, vitamins lose their activity as a result of UV absorption, phytohormones (primarily auxins), antioxidants and other biologically active substances are destroyed (see Muzafarov E.N., Kreslavsky V.D., Nazarova G.N. Light and hormonal regulation of photosynthesis and plant growth. Pushchino: ONTI PNC RAS, 1995. 140 s .; Aknazarov O.A., Shomansurov S. Influence of ultraviolet radiation on the content of indolylacetic acid in barley plants // Physiology and Biochemistry of Cultivated Plants, 1988. T . 20, No. 6. S. 570-572).

The consequence of this is a variety of mutations, disturbances in physiological processes (growth, respiration, photosynthesis) and the death of a plant organism (see Koshkin EI, Physiology of Sustainability of Agricultural Crops. Moscow: Drofa, 2010. 638 p).

As the habitat of plants in relation to sea level increases, the effect of UV radiation becomes an increasingly significant environmental factor that determines their appearance, adaptive traits, vital signs and chemical composition.

The problem of adaptation of plants to the action of UV radiation is the most relevant when growing plants in mountainous and hilly landscapes. One of the ways to increase plants to the adverse effect of UV rays can be their treatment with biologically active substances (hereinafter - BAS).

Known methods of treating plants with biologically active substances - plant growth regulators in order to increase seed germination, resistance to diseases, accelerate development, increase yields, improve product quality (see G. Muromtsev and others. Fundamentals of chemical regulation of plant growth and productivity. M .: Agropromizdat, 1987. 382 p .; Verzilov V.F. Plant growth regulators and their use in crop production.M .: Nauka, 1971. 144 p.).

The most famous drugs used as plant growth regulators are “Heteroauxin” (active ingredient: indolylacetic acid), “Gibbersib” (active ingredient: sodium salts of gibberellic acids), humic salts of monovalent cations, succinic acid, preparations based on arachidonic acid.

Plant growth regulators are used in the form of aqueous solutions of a certain concentration (0.001% -0.01%) for soaking seeds, tubers, bulbs, cuttings, vegetative and flowering plants are watered or sprayed with them; the method of preparation of solutions of growth regulators consists in the direct dissolution of the drug in a certain amount of water ("Instructions for the use of plant growth regulator - Gibbersib in household plots", "Recommendations for the use of the drug" Heteroauxin potassium salt "", "Recommendations for the use of the drug" Sprout , "Instructions for the use of the drug" Humate 80 "", "Instructions for the use of the drug" Humate 80 ").

The disadvantages of the known solutions to increase the resistance of plants to adverse conditions are the following symptoms:

1) as active substances, synthetic chemical analogues are used, and not natural substances;

2) solutions for soaking seeds have a high content of the drug and a small range of effective concentrations;

3) the instability of the effects of the use of growth regulators, the solutions of which are prepared in a standard way, which is due to a large number of factors determining the response of the plant to the action of the growth regulator.

The problem to which the claimed invention is directed, is expressed in increasing the resistance of cultivated plants to ultraviolet radiation.

The technical effect obtained by solving the tasks expressed in the preparation of biologically active substances (BAS) that meet the requirements for presowing seed treatment.

To solve this problem, a method of pre-sowing seed treatment to increase the resistance of plants to ultraviolet irradiation, including soaking the seeds in solutions of biologically active preparations, is distinguished by the fact that water extracts of plants are used as biologically active preparations, namely marsh ledum in fourth to fifth decimal homeopathic dilutions ( concentration of 10 ^-2 -10 ^-4% of the mass fraction of vegetable raw materials), or cranberries in the seventh to ninth decimal homeopathic dilutions (end tration of 10 ^-5 -10 ^-7% mass fraction of vegetable raw materials), bearberry or in the eighth to tenth decimal homeopathic dilutions (concentration of 10 ^-6 -10 ^-8% mass fraction of vegetable raw materials), or crowberry black in the seventh to ninth decimal homeopathic dilutions (concentration of 10 ^-5 -10 ^-7 % of the mass fraction of plant materials), or shrub alder in the ninth to eleventh decimal homeopathic dilutions (concentration of 10 ^-7 -10 ^-8 % of the mass fraction of plant materials). In this case, solutions of biologically active substances for seed treatment are obtained by the method of successive decimal dilutions.

The best effect can be achieved by soaking seeds in extracts from plants of the heather Ericaceae and Betulaceae family, growing, for example, in South Yakutia, in high mountains and increased solar insolation, in the spectrum of which there is a high proportion of hard UV radiation. Solutions for seed treatment are prepared by decimal homeopathic dilutions (potentiation) and dynamization (shaking). It is assumed that the main active ingredients in such preparations will be tannins (tannides) and catechins, as the climate and landscape conditions of South Yakutia determine the high content of precisely these groups of substances in plants (see Muravyova D.A. Pharmacognosy with the basics of biochemistry of medicinal plants. M: Medicine, 1978. 656 pp .; Korenskaya IM, Ivanovskaya N. P., Izmalkova IE Medicinal plants and medicinal plant raw materials containing anthracene derivatives, simple phenols, lignans, tannins. Voronezh, 2007. 88 p.).

Tannins are called high molecular weight natural phenolic compounds with tanning properties, i.e. the ability to interact with proteins with the formation of insoluble compounds (see Zaprometov MN Phenolic compounds and their role in plant life. M: Nauka, 1996. 44 p.). In the plant body, tannins perform a wide variety of functions: 1) are the foundation of biologically active substances in an inactive state; 2) are factors that protect the plant from pests and pathogens of pathogenic diseases, as well as toxic substances; 3) having a developed system of double chemical bonds and cycles, they are a “trap” for free radicals and stray electrons; 4) enhance the respiratory chain in plant cells.

The author has studied 150 species of plants growing in South Yakutia (the vicinity of Neryungri) in order to identify sources of biologically active drugs that stimulate the growth and development of cultivated plants, increase their adaptive potential. It was found that the largest number of tannins and catechins is found in forest plants, especially in representatives of the heather Ericaceae family (see Zaitseva N.V., Pogulyaeva I.A. Biologically active substances of plants in South Yakutia: ontogenetic and environmental aspects // Prospects for phytobiotechnology to improve the quality of life in the North: Mater, international conference Yakutsk, 2010. P. 125-129; Zaitseva N.V., Pogulyaeva I.A. Plants of South Yakutia as a source of biologically active substances // Abstract. practical conference "Biological and active substances: fundamental and applied issues of preparation and use. ”Kiev, 2011. P. 255-256).

Among the representatives of forest flora, the following sources of biologically active substances were selected: marsh Ledum palustre L., common lingonberry Vaccinium vitis-idaea L., bearberry Arctostaphylos uva-ursi Spreng., Black crowberry Empetum nigrum L., and alder shrub fry Duschek Rupr.) Pouzar. Betulaceae family. Plants were harvested in larch forests.

A method of treating seeds to increase them to the effect of UV irradiation includes 2 stages: 1st stage - preparation of plant extracts and potential solutions from them; 2nd stage - direct processing of seeds.

Preparation of biologically active substances solutions for seed treatment

Plant materials collected during the growing season of the plants are dried to a completely dry state. 10 g of raw material (abs. Dry weight) are taken from it, 90 ml of distilled water is added to the sample. The system is shaken (dynamized) for 10-20 minutes. After that, the extraction mixture is kept in a water bath at 55-75 ° C for an hour, and then insisted for a day. After 24 hours, the extract obtained is filtered and working solutions are prepared from it for seed treatment by the method of decimal homeopathic dilutions (potentiation) and dynamization (see Grannikova T.A. Short course on homeopathy. L., 1991. 160 p.). The resulting dilutions (D1-D10) are used to soak the seeds.

The method of seed treatment

Seeds are placed in a dry container, an extract solution of the selected potency is added to them (the ratio of seeds: solution is 1: 1 by volume), mixed and left for 24 hours. After this time, the seeds are removed from the solutions, sprinkled on dry filter paper and dried to a friable state.

Examples of the invention

Biological effects

The treated seeds were planted in Petri dishes and placed under conditions simulating increased UV radiation (on the fifth day of seed cultivation, the seedlings were irradiated with a UV lamp for 10 min). The criterion for the plant to recover from stress was the restoration of the growth and development of seedlings.

In the seedlings of the control variant (without soaking seeds in plant extracts) treated with UV rays, a significant deterioration in the state of the seedlings was observed. Disturbances in development were expressed, first of all, in a slowdown in the growth of the root system and its decay. The size of the seedlings decreased from 104.8 ± 12.5 mm (control 1 — normal conditions for the growth and development of seedlings) to 66.5 ± 10.5 mm (control 2 — seedlings irradiated for 10 min with a UV lamp), t. e. 36%, this indicator was worse than that of seedlings of control 1. The number of viable plants: control 1-85 out of 100, control 2-75 out of 100. The number of plants with a rotten root system: control 1-12%; control 2-100%.

Example 1. As a preparation for soaking seeds used extracts of Ledum marsh Ledum palustre L. in the fourth to fifth decimal homeopathic dilutions of plant materials. The results of the application of Ledum extracts are presented in table 1.

In the variants treated with solutions of marsh rosemary extract in the fourth to fifth decimal homeopathic dilutions, the size of the seedlings was 36-52% larger than in the control variant, seed germination was 85-90%, there were no rotten seedlings.

Example 2. As a preparation for soaking seeds, we used extracts of lingonberry ordinary Vaccinium vitis-idaea L. in the seventh-ninth decimal homeopathic dilutions (D ₇ , D ₈ ). The results of the application of Ledum extracts are presented in table 2.

In the variants treated with solutions of lingonberry extract in the seventh-ninth decimal homeopathic dilutions, the size of seedlings was 97-129% larger than in the control variant, seed germination was 85-95%, there were no rotten seedlings.

Example 3. As a preparation for soaking seeds, extracts of bearberry Borctum Arctostaphylos uva-ursi Spreng were used. in the eighth to tenth decimal homeopathic dilutions (D ₈ , D ₉ , D ₁₀ ). The results of the application of Ledum extracts are presented in table 3.

In the variants treated with boron bearberry extract solutions in the eighth to tenth decimal homeopathic dilutions, the size of the seedlings was 24-30% larger than in the control variant, the seed germination was 80-85%, there were no rotten seedlings.

Example 4. As a preparation for soaking seeds, we used extracts of blackweed Empetum nigrum L. in the seventh-ninth decimal homeopathic dilutions (D ₇ , D ₈ , D ₉ ). The results of the application of extracts of Ledum are presented in table 4.

In the variants treated with solutions of black waterdrop extract in the seventh-ninth decimal homeopathic dilutions, the size of seedlings was 41-92% larger than in the control variant, seed germination was 80-95%, the number of rotten seedlings in the sample did not exceed 15%.

Example 5. As a drug for soaking seeds used extracts of alder shrub Duschekia fruticosa (Rupr.) Pouzar. in the ninth to tenth decimal homeopathic dilutions (D ₉ , D ₁₀ ). The results of the application of extracts of Ledum are presented in table 5.

In the variants treated with solutions of alder shrub extract in the ninth to tenth decimal homeopathic dilutions, the size of seedlings was 89-94% larger than in the control variant, seed germination was 85-100%, there were no rotten seedlings.

Thus, the use of biologically active substances based on plant extracts containing the largest amount of tannins and catechins, especially representatives of the heather family, in the claimed compositions will increase the resistance of cultivated plants to ultraviolet radiation and improve the sowing quality of seeds.

Claims (1)

A method of pre-sowing seed treatment to increase the resistance of plants to ultraviolet irradiation, including soaking the seeds in solutions of biologically active preparations, characterized in that water extracts of plants, namely, marsh rosemary in fourth to fifth decimal homeopathic dilutions at a concentration of 10 ^- are used as biologically active preparations ^{-4 2} -10% by weight fraction of plant material, or cranberries in the seventh to ninth decimal homeopathic dilutions at a concentration of 10 ^-5 -10 ^-7% by mass ol plant material, or bearberry in the eighth to tenth decimal homeopathic dilutions at a concentration of 10 ^-6 -10 ^-8% by weight fraction of plant material, or crowberry black in the seventh to ninth decimal homeopathic dilutions at a concentration of 10 ^-5 -10 ^-7% by weight fraction of plant material, alder or shrub in the ninth-eleventh decimal homeopathic dilutions in concentrations 10 ^-7 -10 ^-8% by weight fraction of plant material, wherein the solutions of biologically active substances for the treatment of seeds obtained after the method ovatelnyh decimal dilutions and dormant.