RU2812704C1 - Method of protecting, increasing productivity and quality of tomatoes under protected soil conditions - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method consists of placing an open glass container with a 5% alcohol solution of iodine in the middle of the greenhouse on the ground surface at the rate of 10 ml per 10 m² of area during the ripening and fruiting phase of tomatoes after pinching.

EFFECT: simplified use of iodine-containing product with acceleration of plant growth and development, increasing the yield and quality of tomato fruits, and obtaining iodine-enriched products for functional human nutrition.

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Description

The invention relates to agriculture, in particular, greenhouse vegetable growing, concerns increasing the yield of tomatoes and can be used by owners of summer cottages, personal subsidiary plots and farms to combat plant diseases of viral, bacterial and fungal nature, nematodes and arthropods when cultivating vegetables in protected ground conditions. The method consists of placing a glass container with a 5% alcohol solution of iodine in a greenhouse for the home, garden, or cottage during the period when tomatoes begin to set fruit after pinching.

The technical result of the invention is to increase the adaptive capabilities of plants, the ability to resist pests and stress factors (especially during pinching and changes in temperature and humidity), accelerate the processes of plant growth and development, increase the yield and quality of tomatoes due to the accumulation in them of compounds necessary for human life. Yoda.

The wide spectrum of action of the proposed product is due to the presence of active iodine in its composition, which is an essential trace element involved in the growth and development of plants, as well as an antiseptic agent for the fight against infectious diseases and parasites.

For disinfection and disinfestation of premises, compositions with iodine compounds are recommended [6-7], used by spraying vegetative plants with aqueous solutions of the proposed products. They dissolve well in water and are convenient for use, but they cause burns to leaf blades and stems, which limits their use in greenhouse vegetable growing.

The problem of protection against burns is solved by a composition containing a water-soluble reaction product of iodine with an organic reagent, including an organic solvent, an auxiliary nonionic surfactant compound and water [5]. The authors propose to use alkyl or alkylphenyl ethers of polyethylene glycol as an organic reagent, low molecular weight ethylene glycols as a solvent, and proxanol or ethoxylated alkylphenol based on polymer distillate as an auxiliary nonionic surfactant to achieve uniform distribution of the working solution on the sheet surface. Due to its complex composition, this composition has not become widespread in greenhouse vegetable growing.

Based on iodine, drugs such as Iodinemetroxide (patent RU 2080864, 1997), Saveyodim (patent UA 59974 A, 7 A61K 9/08, 2003), Citrosol (patent RU 2189238, 2000), Iodineprotectin ( patent RU 2490008), Iodine triethylene glycol (ITEG)-A (patent RU 2107501, 1998), in which dimethyl sulfoxide, glycerin, triethylene glycol and potassium iodide are used to dissolve iodine. Due to their low efficiency and difficulties encountered in their use, they have not become widespread among the population.

Compositions based on iodine to protect plants from diseases caused by nematodes and insects have been developed in other countries: US patents (No. 2742736; 2853416 and 2853417) propose compositions of iodine with N-vinylpyrrolidone; in patent EP No. 1018883 - a complex composition that, in addition to iodine, includes insecticides, fungicides, herbicides, emulsifiers, mineral salts, organic and mineral acids. All of them have a complex composition, and when used, do not pass through the hydrophobic lipid layer of leaf blades. Therefore, iodine compounds cannot accumulate in plant fruits when used.

Similar in composition and mechanism of action to the drug Farmayod [5], is “Agroyod” [3], which is proposed to be used by soaking seeds in a solution of the drug, watering the soil and spraying plants during the growing season. During tests of the drug on tomatoes in greenhouse conditions, the effectiveness of the composition against root rot, fusarium, downy mildew, late blight, blackleg, rhizoctonia and tomato mosaic virus was revealed. The disadvantage of this method is the need for repeated use of the composition.

A silicon-containing mineral sorbent - ameliorant diatomite with a silicon content of about 80% [4], proposed by the authors for application to the soil against the background of mineral fertilizers, has stimulating growth processes and fungicidal properties. Due to the high content of iron, aluminum and mercury oxides, it is not recommended to use this drug in protected soil conditions.

There are known methods for enriching agricultural, medicinal, spicy and fruit crops with selenium using compositions of selenium, vanadium and iodine [2], which are applied by repeated spraying of plants during the growing season. The disadvantages of these methods include the need to repeatedly add iodine-based compositions, which requires additional labor and financial costs.

The closest technical solution is a method for enriching vegetable crops of the pumpkin family with microelements [1], including iodine and selenium. The method involves the use of a composition based on potassium iodide, phosphoric acid and surfactants from the class of fatty alcohol derivatives and water to increase productivity and produce vegetable crops of the pumpkin family with a high content of microelements in order to create agricultural products for functional human nutrition. To obtain a technical result, the composition is applied to plants in the fruit formation phase by repeated spraying throughout the entire period of fruit ripening. For 1 hectare of soil surface area, the authors propose to apply a composition containing up to 2 kg of crystalline iodine, which makes it possible to obtain products with an enriched microelement to a level of about 1/3 of the daily norm of microelement consumption by humans, which for iodine is 40-50 μg/100 g raw weight of the plant fruit. The disadvantages of this method, like most of the others mentioned above, are the complexity of preparing the working solution and its practical use in closed ground conditions, since they require the use of special means to protect the respiratory system and skin.

To date, other patents and publications are known to study the possibility of using iodine-containing products in agriculture as protective agents to combat plant diseases of viral, bacterial and fungal etiology. The mechanism of their action is based on the ability to isolate active iodine in free form from the composition of the proposed drug, which is responsible for antibacterial, fungicidal, antiviral and antiprotozoal properties. Unlike antibacterial agents, they do not cause resistance even with long-term use and therefore do not lose their relevance for use in various areas of the national economy.

The inventive method solves the problem of simplifying the method of using iodine-containing products in small greenhouses for the home, garden, and summer cottages in order to accelerate the processes of growth and development of plants, increase the yield and quality of tomatoes, and obtain iodine-enriched products for functional human nutrition.

The technical result is achieved through the use of the most accessible iodine-containing product in the form of an alcoholic solution of iodine 5%, which is a medicinal product, 100 ml of which contains 5 g of crystalline iodine and excipients in the form of potassium iodide, ethyl alcohol and purified water, sold through pharmacies networks. To achieve the expected effect, it is enough to place on the soil surface in the middle of the greenhouse an open glass container with a 5% alcohol solution of iodine at the rate of 10 ml per 10 m ² of area during the ripening and fruiting phase of semi-determinate and indoterminate tomato varieties after pinching. During this phase of development, tomato plants are especially vulnerable to the action of pathogenic microorganisms due to the possibility of their penetration into the vascular network after the removal of lateral stems and significant changes in temperature and humidity during the day and night hours. Over the course of several days, iodine evaporates on its own, distributing along the perimeter of the greenhouse and exhibiting its bactericidal, fungicidal, antiviral and antiparasitic properties, inhibits the development of nematodes and insect pests, penetrates plant tissue and partially into the soil.

In experiments on cultivating tomatoes in glass greenhouses with an area of 20 ^m2 in the conditions of the Chuvash Republic using a 5% alcohol solution of iodine, we recorded a reduction in ripening and fruiting time by 6-8 days and an increase in the yield of mature tomatoes up to 20 percent or more compared to plants , grown in another greenhouse without the use of an iodine-containing product. The increase in tomato yields can be explained by the high effectiveness of iodine-containing agents against fungal, bacterial and viral diseases, nematodes and insects that attack tomato shoots and roots; the participation of iodine in increasing the ability of plants to withstand stress factors, in activating the processes of plant growth and development through the regulation of enzyme systems and metabolic processes. The accumulation of iodine compounds in fruits increases the quality indicators of tomatoes, making them one of the physiologically functional products for human nutrition.

Information sources:

1. Karataeva M.V., Selivanova A.V. A method for enriching vegetable crops of the pumpkin family (Cucurbitaceae) with microelements. Patent RU 2670061. Bulletin No. 34. The date of publication of the application is November 28, 2017.

2. Karpukhin M.Yu., Romanchuk A.V., Knyazev A.V., Akhmetkhanov V.F. A method of growing potatoes and vegetables in the conditions of the Middle Urals. Patent RU 2529900 C1. Published: 10/10/2014.

3. Kudryashov A.V. Plant protection product "Agroyod". Patent RU 2680309 C1. Published: 2019.02.19.

4. Mashkovsky M.D. Medicines. - 15th edition, revised, corrected. and additional - M: Novaya Volna Publishing House LLC, 2006. - P. 701-703, 937-938.

5. Mosin V.A., Drinyaev V.A., Kruglyak E.B., Tibaeva V.N., Budynkov N.I. A product for protecting plants from diseases and pests. Patent RU 2282356 C1. Published 08/27/2006. Bulletin No. 24.

6. Mosin V.A. Method for obtaining a disinfectant. Patent RU 2161507 C1. Published: 2001.01.10.

7. TSANIRATO Valeria. Method and composition for enriching potatoes with iodine and potatoes obtained in this way. Patent RU(11) 2476063. Published: 02/27/2013. Bulletin No. 6.

Claims (1)

A method of protecting, increasing the yield and quality of tomatoes in protected soil conditions, which consists of placing an open glass container with a 5% alcohol solution of iodine in the middle of the greenhouse on the ground surface at the rate of 10 ml per 10 m ² area during the ripening and fruiting phase of tomatoes after stepsons.