RU2127509C1 - Plant growing method - Google Patents

Abstract

FIELD: agriculture, in particular, plant growing, garden construction, forestry, horticulture and commercial production of seedlings. SUBSTANCE: method involves applying into ground biologically active preparation based on consortium of lactic acid bacteria, such as nitrogen-fixing and phosphate-activating bacteria, with following treatment of vegetative plants with preparation produced on the base of consortium of lactic acid bacteria of other types. Out of nitrogen-fixing bacteria, strains of Azotobacter Chroococcum bacteria are used in an amount of 0.2-0.4 kg/ha, and out of phosphate-activating bacteria, strains of Bacillus Mucilaginosus bacteria are used in an amount of 0.1-0.4 kg/ha. Method allows yield to be increased by 25-35% and plant adaptivity to be increased by 20-40%. EFFECT: improved quality of standard planting material, increased yield and improved frost resistance of cultures, particularly, fruit cultures. 7 cl, 8 tbl, 8 ex

Description

 The invention relates to agriculture and can be used in crop production, horticulture, industrial nursery farming, green building.

 A known method of growing winter and spring wheat using biofertilizers, which consists in the fact that before sowing the seeds are inoculated with a nitrogen fertilizer or applied to the soil at a dose of 20-50 kg / ha [I]. However, this method has limited use due to the rapid loss of viability of microorganisms during storage and transportation, a very high consumption rate and the inability to mechanize the processing of the soil preparation.

 A known method of growing vegetables using bacterial fertilizers, which consists in the fact that before sowing the seeds for 48 hours are soaked in an 8-day culture of bacteria [2]. However, the method has limited use due to the low viability of the liquid bacterial culture, compliance with certain conditions when soaking and aging seeds, due to lack of effectiveness.

 A known method of growing woody plants using bacterial fertilizers, which consists in the fact that when planting in the soil or during the period of intensive growth of seedlings, azotobacterin (soil form) is applied in a dose of 15 to 20 bottles of 500 ml per ha and phosphorobacterin in a dose of 250 to 300 ml per ha [3]. However, this method has limited use due to the rapid loss of activity (viability) of microorganisms in both soil and liquid preparations, there is no mechanized processing method, the drug consumption rate is high, and the efficiency is insufficient.

A known method of growing forest stands using growth regulators, which consists in the fact that the root system of one or two year old seedlings was treated with an aqueous solution of cartolin in a concentration of 2 • 10 ^-6 % [4]. However, this method has limited use due to the cessation of the production of cartolin.

 A known method of growing seedlings and seedlings of forest coniferous crops using growth substances in combination with bacterial fertilizers, which consists in the fact that at the same time as spraying the plants with a solution of gibberellin at a dose of 100 mg / l, root dressing with azotobacterin, as well as non-root top dressing with 1% solution urea in combination with a 2% solution of superphosphate [5]. However, this method did not find wide application due to the strong growth of annual shoots of deciduous crops and the lack of response to the growth regulator in coniferous stands.

 The aim of this invention is to increase crop yields, stimulate plant growth and development, increase the survival rate of seedlings and a high yield of healthy standard material.

 This goal is achieved by the fact that in the proposed method of growing plants using a complex of biological products obtained on the basis of consortia of lactic acid bacteria and on the basis of strains of nitrogen-fixing and phosphate-mobilizing bacteria with a wide spectrum of action, namely the properties of biologically active substances that contribute to the improvement of the soil. Biological products are used for pre-sowing seed treatment, for direct application to the soil before sowing or planting plants, for the treatment of the vegetative part of plants or application to the soil during the growing period, especially in urban conditions, combining the effect of biologically active substances on plants and for the improvement (restoration) of the soil , due to activation of the growth of soil-forming microorganisms [6].

 The proposed method is as follows.

 Example 1. The seeds of winter wheat cultivar "Mironovskaya 808" before sowing were treated with aqueous solutions of biological products and biologically active substances from the calculation of the drug based on Azotobacter chroococcum VKPM N B-3721 - 200 ml / t of seeds, a preparation based on Bac. mucilaginosus VKPM N B-5987 at the rate of 100 ml / t of seeds, El preparation - 1 at the rate of 0.03 mg / t of seeds; wheat seeds were processed in an OP-10 dressing machine, the calculated amount of preparations was dissolved in cold water so that the solution flow rate for processing 1 ton of seeds was 10 l. Soil preparation for sowing begins after snow melts in the spring, namely, a preparation is introduced before plowing for 7-5 days based on a specific consortium of lactic acid bacteria 5842, VKPM N B-5972 and including Streptococcus thermophil us, Streptococcus bovis, Lactobacillus salivarius, var. salicinicus, Lactobacillus salivarius, var. salibarius, Lactobacillus acidophilus at the rate of 1 kg / ha. Immediately before sowing or when sowing, an aqueous solution consisting of a mixture of preparations based on Az was introduced into the soil. chroococcum, VKPM N B-3721 and Bac. mucilaginosus, VKPM N B-5987 at the rate of 400 ml / ha and 200 ml / ha, respectively. 7-15 days after sowing, an aqueous solution was again introduced, consisting of the same preparations in the same amount. After 2 weeks, the vegetative plants were treated with a preparation based on a specific consortium of lactic acid bacteria 3843, VKPM N B-5974 by spraying with an aqueous solution prepared at the rate of 1 l of the preparation per 1 ha of inoculation (or 10 l of an aqueous solution) in the phase of the beginning of going into the tube. Biometric and morphophysiological examinations were carried out during the growth and development of plants, wheat yields in the control and experimental plots were determined after harvesting. The results of the experiments are presented in table. 1.

Example 2. The seeds of spruce ordinary before sowing in the soil, pre-treated with a preparation based on a specific consortium of lactic acid bacteria 5842, VKPM N B-5972, consisting of Streptococcus thermophilus, Streptococcus bovis, Lactobacillus salivarius, var salicinicus, Lactobacillus salivari salivarius. salivarius, Lactobacillus, thermophilius, at a dose of 15 ml / 100 m ² plantings, were successively soaked in a solution of a preparation based on Azotobucter chroococcum, VKPM N B-3721 and Bac. mucilaginosus, VKMP N B-5987 at a dose of 1 ml and 2 ml, respectively, per 1 kg of seeds, and drug El - 1 at a dose of 0.03 mg / kg of seeds. Plant biometric surveys were carried out during the growth and development of plants. The results are presented in table.2.

Example 3. 4 days before planting three-year-old seedlings of spruce ordinary ground, the soil was treated with a preparation based on a specific consortium of lactic acid bacteria 5842, VKPM N B-5972, consisting of Streptococcus thermophilus, Streptococcus bovis, Lactobacillus salivarius, var. salicinicus, Lactobacillus salibarius, var. salivatius, Lactobacillus thermopholus and applied at the rate of 10 ml / 100 m ² plantings. Simultaneously with the planting of seedlings, a preparation based on Azotobacter chroococcum, VKMP N B-3721 and Bac was introduced into the soil. mucilaginosus, VKPM N B-5987, at the rate of, respectively, 4 ml / 100 m ² and 2 ml / 100 m ² plantings with the full rate of mineral fertilizers applied (1-5). This treatment was carried out in the spring-summer period (May 29). Two weeks later, biological compositions were processed based on a consortium of lactic acid bacteria 3843, VKPM N B-5974, producing cytokinins and plant growth regulator El-1 at a dose of 1 l / ha and 3 mg / ha of plantings, respectively. The results are shown in table. 3.

 Example 4. In order to improve and eliminate fatigue of the soil, toxicosis, a progressive decrease in soil fertility, forest plantations and ensemble plantations of common spruce in Moscow, a week after snow in the spring, a preparation was applied to the root layer of soil by irrigation based on a consortium of lactic acid bacteria 5842, VKPM N B-5972, consisting of Streptococcus thermophilus, Streptococcus bovus, Lactobacillus salibarius, var. saliciricus, Lactobacillus salibarius, var. salivaris Lactobacillus thermophillus, at the rate of 1 l / ha of planting. After 2 weeks, preparations based on Azotobacter choococcum 3064, VKPM N B-3721 and Bac were introduced under the spruce into the root layer. mucilaginosus VKPM N B-5987 at a dose of 400 ml and 200 ml, respectively, per 1 ha of landings. Two weeks later, spraying was carried out with a preparation based on a consortium of lactic acid bacteria 3843 VKPM N B-5974, consisting of Lactobacillus lactis, Lactobacillus salivarius, var. salivarius, Lactobacillus salivarius, var. salivarius, Lactobacillus acidophilus in combination with the growth regulator El-1 at the rate of 1 l and 3 mg, respectively, per 1 ha of plantings. Morphophysiological and biochemical and biometric surveys of stands were carried out in the process of growth and development before and after application of the proposed method of growing. The results are shown in table. 4.

 Example 5. Simultaneously with the planting of three-year-old seedlings of Michurinskaya pear seedlings in the soil, biological preparations were introduced as described in Example 3. Further cultivation and care of the pear seedlings was carried out as described in Example 3. Morphophysiological and biometric examination of the pear seedlings was carried out during growth and plant development, as well as after overwintering.

 Example 6. The seeds of spring wheat cultivar "Lida" were processed before sowing, as described in example 1. Further cultivation and care of the crops was carried out as described in example 1. Biometric and morphophysiological conditions of crops were carried out during the growth and development of spring wheat. Biological productivity was determined a week before harvesting. The grain yield per hectare was determined by trial cut. The results of the experiments are presented in table. 5.

 Example 7. Sunflower seeds "Leader" was treated with biological products and growth regulators, as described in example 1. Root and foliar fertilizing of crops was carried out as described in example 6. Morphophysiological, phytopathological and biometric examination of sunflower crops was carried out during the growth and development of plants, productivity (c / ha) was determined by the control cut, from the bunker of the combine. The results are presented in table. 6.

 Example 8. The seeds of cucumber varieties "Relay" were soaked for 8 hours in a mixture of biological products and growth regulators from the calculation, as described in example 1. Two weeks after planting the seedlings in the greenhouse, root dressing was carried out with watering preparations from the calculation, as described in example 1 Foliar top dressing was performed with a preparation based on a consortium of lactic acid bacteria 3843, VKPM N B-5974, consisting of Lactobacillus lactis, Lactobacillus salivarius, var. salivarins, Lactobacillus actdophilus at a dosage as described in example 1, but before the onset of the mass phase of budding. Cucumber crop accounting was carried out when greens appeared from February to May mts. The results are presented in table. 7.

Sources of information
1. Novogrudskaya E.D., Memetova L.Sh. The effectiveness of the use of microbiological fertilizers abroad. Obtaining and using microbiological plant protection products, feed antibiotics and bacterial fertilizers. Literature review. - M.: TSBNTI of the Ministry of Health of the USSR, 1987, issue. 3.

 2. Rybakova Z.P. Comparison of presowing treatment of seeds with microbes - stimulants. The use of microorganisms to increase crop yields. M .: Kolos, 1966, p. 103-108.

 3. Shestakova V.A. Bacterial fertilizers in the nurseries of the forest zone. J. "Forestry", 1967, N 4, p. 38-40.

 4. Kopylov V.V., Shevtsova L.V. The use of cytokinin type substances in forestry production. J. "Forestry", 1992, N 4, p. 23.

 5. Savina AV, Shestakova VA, "The influence of gibberellin on the growth of seedlings and seedlings of forest trees." Forestry, 1962, N 2, p. 21-24.

 6. Vakulenko V.V., Shapoval O.A., Agafonov Yu.V. Development of production technologies and the use of highly effective environmentally friendly immunostimulant El. Abstracts of the participants of the seminar-meeting. Anapa, 1995, p. 122.

Claims (7)

 1. A method of growing plants, comprising introducing nitrogen-fixing and phosphate-mobilizing bacteria into the soil and treating the plants with a biologically active substance, characterized in that nitrogen-fixing and phosphate-mobilizing bacteria are added to the soil simultaneously after adding a biologically active preparation based on a consortium of lactic acid bacteria 5842, VKPM N B -5972, consisting of Streptococcus thermophilus, Streptococcus bovis, Lactobacillus salivarius, Var. salicinicus, Lactobacillus salivarius, Var. salivarius, Lactobacillus thermophilus, and the treatment of plants is carried out with a composition of biologically active substances consisting of a preparation based on a consortium of lactic acid bacteria 3843, VKPM B-5974, consisting of Lactobacillus lactis, Lactobacillus salivarius, Var. salivarius, Lactobacillus acidophilus and a preparation, for example, El-1.  2. The method according to p. 1, characterized in that Azotobacter chroococcum 3064, VKPM N B-3721 at a dose of 0.2-0.4 kg / ha and Bacillus mucilaginosus VKPM N B-5987 are used respectively as nitrogen-fixing and phosphate-mobilizing bacteria. dose of 0.1 - 0.4 kg / ha.  3. The method according to claim 1, characterized in that the treatment of plants with biologically active substances is carried out with an aqueous solution of a composition consisting of a preparation based on a consortium of lactic acid bacteria 3843, VKPM N B-5974, consisting of Lactobacillus lactis, Lactobacillus salivarius, Var. salivarius, Lactobacillus acidophilus and El-1 at a dose of 1 kg and 0.003 g per 1 ha of plantings, respectively, 1 to 3 weeks after the introduction of nitrogen-fixing and phosphate-mobilizing bacteria.  4. The method according to claim 1, characterized in that a biologically active preparation based on a consortium of lactic acid bacteria 5842, VKPM N B-5972, is applied at a dose of 0.8 - 2.0 kg / ha: for closed ground - in 5 to 10 days before planting seedlings; in the spring regrowth of winter crops and grazing lands - after snow melts; during spring soil preparation for spring, grain, industrial, vegetable, fruit and berry, wood, decorative crops - with the simultaneous introduction of the full norm of mineral fertilizers.  5. The method according to PP. 1 to 4, characterized in that the treatment is carried out at the stage of seeds, which before planting is treated with a composition of biologically active substances, consisting of preparations based on nitrogen-fixing and phosphate-mobilizing bacteria mixed with a biologically active drug, for example, El-1.  6. The method according to claim 1, characterized in that the processing of perennial grasses, ornamental shrubs, woody and fruit-bearing crops is carried out annually according to paragraphs 2 and 3.  7. The method according to p. 1, characterized in that the processing of green crops and rangelands is carried out according to claims 2 and 3, respectively, after each partial sampling of the green mass of vegetative plants (grasses).

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