RU2775314C1 - Method for presowing seed treatment of spring vetch - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to crop production. A method for presowing seed treatment of spring vetch, including spraying the seeds with an aqueous solution of phytoextracts, is proposed. As plants for the preparation of extracts, buckwheat and Japanese rheinutria are used in a ratio of 1:1.

EFFECT: invention allows the use of a biological product for pre-sowing treatment of spring vetch seeds, obtained from available plant materials, with high efficiency and low toxicity.

1 cl, 3 tbl, 2 ex

Description

The invention relates to agriculture, in particular to crop production, and is intended for presowing seed treatment of spring vetch.

In recent years, there has been an increased interest in studying the possibilities of using plant extracts in agricultural practice, including for stimulating the growth and development of leguminous plants. For example, it was found that foliar feeding of peas with Moringa oleifera leaf extract increased bean yield, seed dry weight, protein content and photosynthetic pigments, especially when treated with a 4% solution of the extract (Merwad A.-R.M.A. Using Moringa oleifera extract as biostimulant enhancing the growth, yield and nutrient accumulations of pea plants // Journal of Plant Nutrition 2018. No. 41(4), pp. 425-31 doi:10.1080/01904167.2017.1384012), as well as the number of pods, dry matter content, seed weight , growth rates and productivity of leguminous crops (Abohassan R.A., Abusuwar A.O. Effects of Moringa olifera leaf extracts on growth and productivity of three leguminous crops // Journal of Environmental Management. 2018. No. 41(1). C. 114-19 doi: 10.18805/LR-366).

Of great importance for agricultural production are studies devoted to the study of the potential of phenolic substances produced by higher plants, which have high biological activity. Representatives of an extensive class of phenolic compounds - flavonoids, are actively involved in the physiological processes of the plant cell and can influence reproductive processes, promote rhizogenesis, suppress the development of pathogens, regulate the processes of oxidative phosphorylation and are universal multifunctional adaptogens to adverse environmental factors (Zaprometov M.N. Phenolic compounds and their role in plant life, Moscow: Nauka, 1996, 45 pp. Prusakova L.D., Kefeli V.I., Belopukhov S.L., Vakulenko V.V., Kuznetsova S.A. The role of phenolic Mierziak J., Kostyn K., Kulma A. Flavonoids as important molecules of plant interactions with the environment // Molecules.2014, No. 19. C. 16240-16265 https://doi.org/10.3390/moleculesl91016240). The facts confirming the stimulating effect of phenolic compounds on the growth and organ formation of plants are described by various researchers (Kefeli V.I. Natural growth inhibitors and phytohormones. Moscow: Nauka, 1974. p. 253; Phenolic compounds: fundamental and applied aspects: collection of materials of the IX International Symposium / editor-in-chief N.V. Zagoskina, Moscow: IFR RAN, 2015, p. 849).

Buckwheat (Fagopyrum esculentum Moench) and Japanese buckwheat (Reynoutria japonica Houtt.) are plants with a high ability to form secondary metabolites related to flavonoid compounds. According to some reports, the flowers of F. esculentum contain 8.3-10% flavonoids, the leaves - 1.2-2.6% (Vysochina G.I. Phenolic compounds in the systematics and phylogeny of the buckwheat family. Novosibirsk, 2004). The study of the flavonoid composition of R. japonica leaf extracts by high performance liquid chromatography was carried out by SP. Zorikova (Zorikova S.P. Japanese Reynoutria japonica Houtt) in Primorsky Krai (developmental biology, flavonoid composition, biological activity). Dissertation, FEB RAS Mining-taiga station named after V.L. Komarov. 2011). She identified at least 11 compounds of flavonoid nature, and the total amount of flavonoids averaged 3.66%. In connection with the foregoing, it can be argued that the study of the effect of phytoextracts obtained from buckwheat and Japanese rheinutria on the growth and development of legume forage grasses is very promising and relevant. However, to date, such data are not available in the literature available to us.

A known method of pre-sowing treatment of alfalfa seeds (patent No. 2479974, IPC A01C 1/00, A01N 63/00 2013), which includes soaking the seeds in an aqueous solution of a biological product and a stimulant plant - 0.2-0.3% solution of ragweed .

However, this method is complicated by additional seed treatment with crushed nodule bacteria selected from the rhizosphere of alfalfa plants 2-3 years old, which increases the cost of stimulating seed germination and their germination energy.

There is a known method of pre-sowing treatment of seeds of legumes (patent No. 2436272, IPC A01C 1/00, 2011), which uses a biogrowth stimulator "Biostim", which allows to increase the yield of seeds and green mass and increase the resistance of plants to fungal diseases.

However, the method is complicated by the fact that the biostimulator is used 2 times, the seeds are divided into fractions, kept for 20-24 hours and the seeds are dried to the optimum moisture content, which leads to additional costs of the drug and time.

There is a known method of stimulating the germination of seeds of legumes (patent No. 2002127285 A, IPC A01C 1/00, 2004), where pre-sowing mechanical treatment of seeds is carried out, and the treated seeds in the amount of a hectare norm are additionally mixed with 600-800 g of local bacterial fertilizers obtained by digging roots with soil from 0-20 cm of the rhizosphere zone of the best plants of old-age crops of leguminous plants and crushing them together with the soil.

However, the method is complicated by the fact that, in addition, zeolite-containing clay is used in the mechanical treatment of seeds, as well as moistening with distillery stillage when treated with bacterial fertilizers, which increases the cost of achieving results in increasing the intensity of grass growth.

There is a method of stimulating the germination of seeds of legumes (patent No. 2168294, IPC A01B 79/02, 2001), which provides for the introduction of prepared bacterial fertilizers from the roots of native species immediately before sowing.

The disadvantage of the known method is that the non-moistened composition of bacterial fertilizers does not sufficiently promote plant growth, and the preparation of bacterial fertilizer is very time-consuming.

There is a method of pre-sowing treatment of seeds (patent No. 2264069, IPC A01C 1/00, 2005), in which the seeds are soaked in an aqueous solution of the Baikal EM-1 biological product with the addition of 5% stinging nettle.

The disadvantage of this method is the small area of distribution of stinging nettle, which reduces the possibility of its application.

Closest to the claimed invention is a method of pre-sowing treatment of seeds (patent No. 2675534, IPC A01N 65/00, IPC A01C 1/00, 2018), including seeds of agricultural crops (wheat, barley and soybeans), their pre-sowing treatment 1-5 % aqueous solutions of Japanese rheinutria plant extract (Reynoutria japonica) by spraying them, sowing, obtaining seedlings and evaluating them.

The disadvantages of the known prototype are:

- in the proposed method of pre-sowing seed treatment, the influence of one plant species, Japanese rheinutria, is studied, while an increase in the component composition of the phytoextract can lead to an increase in the effectiveness of the drug;

- these studies do not consider the germination energy and seed germination of fodder leguminous grass - spring vetch;

- there are no field studies on the effect of this method on the seed and fodder productivity of plants: the chemical composition of green mass, the yield of green mass and seeds, as well as biometric indicators.

The purpose of the invention is to expand the range of biological preparations for presowing treatment of seeds of spring vetch, obtained from available plant materials, with high efficiency and low toxicity.

This goal is achieved by the fact that in the method of pre-sowing seed treatment of spring vetch, including spraying the seeds with an aqueous solution of phytoextracts, according to the invention, buckwheat (Fagopyrum esculentum) and Japanese rheinoutria (Reynoutria japonica) are used as plants for the preparation of extracts in a ratio of 1:1 .

Compared with the prototype, the features of the inventive step of the proposed method of presowing seed treatment are:

"... as plants for the preparation of extracts, buckwheat (Fagopyrum esculentum) and Japanese rheinutria (Reynoutria japonica) are used in a ratio of 1: 1", which allows:

- expand the range of environmentally friendly products - herbal preparations - to stimulate the growth and development of legume fodder grasses;

- increase the stimulating effect on the growth and development of spring vetch, including its yield and biometric indicators.

The features indicated in the distinctive part of the description of achieving the goal prove that the inventive method of presowing seed treatment is novel. The totality of the features given in the comparison of the properties of the claimed and known solutions, gives grounds to conclude that the proposed method has an inventive step.

The technical result of the invention is the use of a biological product for presowing seed treatment of spring vetch, obtained from available plant materials, which has high efficiency and low toxicity.

The proposed method of pre-sowing seed treatment is carried out as follows.

Method for preparing extracts. A mixture of extracts is prepared as follows. Leaves, young shoots and inflorescences of F.esculentum and R. japonica are dried by the air-shadow method to a moisture level of 12%, crushed in a LZM brand mill to grind dry samples to a fraction of 1 mm, separately extracted with C ₂ H ₅ OH 70% (EtOH 70 %) at a temperature of 95°C, vacuum filtration is carried out and the obtained extracts are transferred into volumetric flasks (100 ml). The result is dark green extracts with a brownish tint and herbal aroma. Finished preparations are stored in hermetically sealed dark glass containers in the refrigerator. Before seed treatment, the required amounts of extracts are dealcoholized by evaporation in a water bath at a temperature of +90°C until the smell of alcohol disappears and adjusted with distilled water to the initial volume. The extracts are mixed in a volume ratio of 1:1. Directly for seed treatment, a 2% concentration solution is prepared from the resulting mixture of dealcoholized extracts, distilled water is used as a control. Below are examples of the invention.

Example 1. Seeds of spring vetch varieties Lugovskaya 85 (substandard) are sprayed with a 2% solution of a mixture of extracts at the rate of 2 milliliters per 100 grams of seeds and left for 2 days in plastic bags. Laboratory germination energy and germination are determined according to GOST 12038-84. The growers are filled with moistened sand to 2/3 of their height. The treated seeds are laid out according to the options in 4-fold repetition and are pressed into the sand with a rammer to a depth equal to their thickness. From above, the plants are covered with glass and placed in a thermostat, in which the set humidity and temperature are maintained (spring vetch + 20 ° C). Assessment of the effect of presowing seed treatment on germination energy and germination is carried out on the 3rd and 7th days, respectively, in 4-fold repetition.

The results of the effect of seed treatment of spring vetch on their germination energy and germination under laboratory conditions are given in Table. one.

Analysis of the table. 1 shows that a 2% mixture of extracts of F.esculentum and R. japonica EtOH 70% dealcoholized has a strong growth-stimulating effect on the germination of substandard spring vetch seeds, significantly increasing the studied parameters. So, if in the control the germination energy and germination were 18.0 and 76.5%, respectively, then in the variant with treatment - 62.3% and 92.5%. Thus, during the treatment of vetch seeds with a spring stimulant, the germination energy increased by 3.5 times, germination - by 1.2 times.

Example 2. Seeds of spring vetch variety Lugovskaya 85 are sprayed with a 2% solution of a mixture of extracts at the rate of 2 milliliters per 100 grams of seeds and left for 2 days in plastic bags. The seeds treated with the stimulator are sown in the field on experimental plots with an area of 10 m ² . Repetition - 3-fold, repetition - 3-fold. Seeds moistened with water are taken as control.

Field studies are carried out by generally accepted methods (Methodology of field experiments with fodder crops / compiled by A.S. Mitorofanov, Yu.K. Novoselov, T.D. Kharkov. VNII fodder named after Williams. M., 1971; Guidelines for conducting field experiments with fodder crops / compiled by Yu.K. Novoselov, V.N. Kireev [et al.]; RAAS. M., 1997). Accounting for the yield of green mass was carried out at the beginning of the formation of beans. Harvesting for seeds was carried out in the phase of wax ripeness. Phenological observations, assessments and records were carried out in accordance with the above methods. The results of field studies of the effect of seed treatment of spring vetch are given in Table. 2-3. According to the data obtained, the height of plants treated with the extract was 114.7 cm, which is 12.4 cm (10.8%) higher than in the control (Table 2).

The yield of green mass of treated spring vetch significantly exceeded the control variant by 0.27 kg/m ² (26.5%).

Analysis of the results presented in table. 3 showed that the proposed stimulant significantly improves biometric indicators and increases the yield of spring vetch. The grain yield treated with a 2% mixture of spring vetch extracts averaged 71.13 g/m ³ , which is significantly (11.9%) higher than the control. The biometric indicators of the studied fodder legume grass - the number of beans per plant, the number of grains in a bean, the mass of grain per plant, the number of seeds per plant in the variant with the use of a stimulator, respectively, were 20.1 pcs., 7.4 pcs., 9.1 g and 148.8 g, respectively, significantly exceeding the control by 30.3; 8.1; 48.4 and 39.5%.

Thus, the analysis of the obtained data given in Table. 1-3 shows that the proposed method of presowing seed treatment of spring vetch helps to increase its germination energy and germination, positively affects the seed and fodder productivity of legumes. The proposed biological product has a high level of efficiency in stimulating the growth and development of spring vetch.

Claims (1)

Method for pre-sowing seed treatment of spring vetch, including spraying the seeds with an aqueous solution of phytoextracts, characterized in that buckwheat (Fagopyrum esculentum) and Japanese rheinutria (Reynoutria japonica) are used as plants for preparing extracts in a ratio of 1:1.