RU2110170C1 - Method of vegetable culture growing - Google Patents

Abstract

FIELD: agriculture, plant farming. SUBSTANCE: vegetable culture seeds are treated with pure cultures of microorganisms Pseudomonas putida ssp., Bacillus megaterium ssp. , Azotobacter indicun ssp., Fusarium moliniforme (VKM-136) and/or their mixtures followed by treatment with polystyrene film containing ultradispersed copper. Obtained seedlings are replanted in soil and high-heating compost is added. EFFECT: improved method of growing. 6 cl, 4 tbl

Description

 The invention relates to the field of agriculture and can be used to increase seed germination, improve crop structure and product quality of vegetable, grain and industrial crops.

 Known technologies for the cultivation of vegetable crops in greenhouses, including the preparation of greenhouse soil (mixing peat, mineral fertilizers and soil, thermal and chemical soil treatment), processing seedlings and vegetative plants of vegetable crops with pesticides, fertilizing organic fertilizers and watering with mineral mixtures, etc. .) (Handbook of the vegetable grower. Rosselkhozizdat, 1985, p. 240. Beshanov AV Herbicides in intensive vegetable growing. Agropromizdat, 1986, p. 247. Pantelev Y. Kh. Seasonal work in vegetable growing. Agropromizdat, 1986, p. 239) .

 The main disadvantages of these technologies are the harmful effect on the soil of the use of chemicals, their sorption and entry into plants, which affects the quality of the products. In addition, the preparation of the soil before laying in the greenhouses does not provide for its rehabilitation, and the thermal and chemical treatments of the soil in greenhouses are not always effective. Pathogens of vegetable diseases are preserved in it.

 Known methods for treating seeds with microorganisms of the genus Pseudomonas, Bazzillus to increase productivity (patent EP N 192342, class A 01 N 63/02, 1986), applying rhizospheric microorganisms, microelements and film-forming substances to seeds (ed. St. N 1286126, class. A 01 C 1/06, 1987), hydrophobization of seeds (ed. St. N 224940, class A 01 C 1/100, 1959), presowing treatment of seeds with pesticides and protective stimulants with a film-forming substance in the form of an aqueous suspension (patent N 2038724, A 01 C 1/100, 1996).

 The disadvantage of these methods is the low degree of survival of microorganisms on the roots of plants, the insufficient effectiveness of fixing protective stimulants on the surface of the seeds and the slow germination of seeds, which significantly affects the damage to seedlings by soil phytopathogens and, ultimately, the crop.

 Closest to the proposed method is a method of growing vegetables, including presowing treatment of seeds with protective stimulating substances, applying a film-forming substance to their surface, obtaining seedlings and transplanting it into the soil (RU, 2038724, class A 01 C 1/00, 1995).

 The disadvantages of the closest analogue are the low productivity of vegetable crops and the insufficient quality of the finished product.

 The technical result of the invention is to increase the yield of vegetable crops while improving product quality.

 The technical result is achieved by the fact that in the method of growing vegetables, including presowing treatment of seeds with protective stimulating substances, applying a film-forming substance to their surface, obtaining seedlings and transplanting them into the soil, according to the invention, pure cultures of Pseudomonas putida microorganisms are used as protective stimulating substances ssp. , Bacillus megaterium ssp., Azotobacter indicun ssp., Fusarium moliniforme (BKM-136) and / or mixtures thereof, and as a film-forming substance - polystyrene film with ultrafine copper, and seedlings are transplanted into the soil with the introduction of high-temperature compost.

The optimal conditions for achieving a technical result are
use of greenhouse soil;
seed treatment for 1.0-1.5 months before sowing;
the use of compost fungistatic action;
the use of compost containing thermophilic microorganisms - antagonists;
the use of microorganisms with a titer of cells 10 to 10.

 Pre-sowing seed treatment involves applying microorganisms with high physiological and biochemical activity and colonization of plant roots to seeds: Pseudomonas putida ssp., Azotobacter indicun ssp., Bacillus megaterium ssp., Fusarium moliniforme (BKM G-136). The titer of the cells is 10 - 10. Bacterized seeds are covered with a polystyrene film with the addition of ultrafine copper powder, the particle sizes of which are 100 - 200 A; this allows copper to evenly distribute in the film former and easily come into contact with water, which enhances the protective properties and its entry into the plant. The amount of powder applied is 1-3 g per 1 kg of seeds - it is harmless to plants. The organometallic film and microorganisms serve as the primary protection of seeds against infections during germination.

 The microorganisms used are highly active in fixing molecular atmospheric nitrogen, dissolving hard-to-reach phosphates, and securing physiologically active substances and compounds with a fungistatic effect. They take root well in the root zone and have a high degree of colonization of plant roots. After sowing, the seeds germinate quickly and a healthy, powerful root system appears.

 Transplanting seedlings into the soil of the greenhouse with the addition of high-temperature compost ensures rapid rooting, active development of plants and their resistance to soil phytopathogens due to compost and the development of microorganisms applied to the seeds.

 The production technology of this compost provides the necessary degree of sterilization, and compost has a fungistatic effect due to the condensation of phenolic-type aromatic compounds with amino acids and proteins. Nutrients from it are absorbed by plants better, faster, and in more complete volume than from mineral fertilizers. Due to the nutritional value and the presence of thermophilic microorganisms - antagonists, high-temperature compost activates the growth and development of plants while protecting them from pathogens.

Examples of specific performance of the method
Example 1. The experiment was carried out in the greenhouses of Niva JSC in the Moscow region. We studied the effect of bacterization of seeds of cucumber varieties TSHA - 2693 and high-temperature compost.

 Example 2. The effect of polystyrene film, ultrafine copper, microorganisms and compost on the development of tomato seedlings was investigated. The results are presented in table. 3 (greenhouses of the Moscow Agricultural Academy named after Timiryazev).

 Example 3. The experiment was carried out at the vegetable station of the Moscow Agricultural Academy named after K.A. Timiryazev. As an object of study, we used tomato seeds of the Verlioka variety. Before sowing, the seeds were treated with pure cultures of microorganisms and their mixtures, a polymer (polystyrene) film and seedlings were planted in the soil with the addition of high-temperature compost. The research results are presented in table. 4.

 Conclusions. Based on the results obtained, it can be concluded that the combined action of pre-sowing seed treatment with protective-stimulating and film-forming substances and the cultivation of tomato and cucumber seedlings in the soil with the addition of high-heat compost increases seed germination, accelerates plant development by 5-7 days and increases their productivity. During the growing season, plants are not affected by diseases, have a healthy, powerful root system, and as a result receive up to 20 - 40% yield increase.

 Seed treatment by the proposed method is carried out before sowing for 1 - 1.5 months. The positive result is that seed treatment does not violate the usual technology for growing vegetable crops and the amount of applied pesticides is reduced, which improves the quality of the products.

Claims (6)

 1. A method of growing vegetable crops, including presowing treatment of seeds with protective stimulating substances, applying a film-forming substance to their surface, obtaining seedlings and transplanting them into the soil, characterized in that pure cultures of Pseudomonas putida ssp. Microorganisms are used as protective stimulating substances, Bacillus megaferium ssp., Azotobacter indicum ssp., Fusarium moliniforme (VKM-136) and / or mixtures thereof, and as a film-forming substance - polystyrene film with ultrafine copper, and seedlings are transplanted into the soil with the introduction I have high heat compost.  2. The method according to claim 1, characterized in that they use greenhouse soil.  3. The method according to claim 1, characterized in that the seed treatment is carried out 1 to 1.5 months before sowing.  4. The method according to claim 1, characterized in that they use compost fungistatic action.  5. The method according to claim 1, characterized in that they use compost containing thermophilic antagonist microorganisms.  6. The method according to claim 1, characterized in that use microorganisms with a titer of cells 10 to 10.

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