RU2764789C1 - Method for biological protection in the technology of potato cultivation on light chestnut soils of the lower volga region - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular, can find application in the biological protection of potatoes in the system of organic farming. The method includes pre-planting treatment of tubers with an aqueous solution of a biologically active preparation and spraying vegetative plants with an aqueous solution of a biofungicide. Microbiological fertilizers of complex action with protective functions BSka-3 at a dose of 5 l/t with the addition of humic fertilizer Humate +7 at a dose of 1 l/t to the working solution are used as a biologically active preparation. During the growing season, 6 treatments are carried out on the aboveground part of the plants, starting from the germination phase, with an interval of 10 days with the biofungicide BFTIM at a dose of 5 l/ha with the addition of humic fertilizer Humate +7 to the working solution at a dose of 1 l/t. In the third and fourth treatments, the bioinsecticide Insetim Zh is additionally added at a dose of 5 l/ha.

EFFECT: method provides the possibility of reducing the pesticide load on the agricultural landscape, obtaining an increase in environmentally friendly products with high quality indicators in the conditions of light chestnut soils of the Lower Volga region.

1 cl, 5 tbl

Description

A known method for the chemical protection system of potatoes, including the dressing of tubers before planting Celeste Top and three times chemical treatment of plant vegetation with fungicides Metaxyl - 2.5 kg/ha, Ridomil - 2.5 kg/ha, Ordan - 2.5 kg/ha (Udalova E Yu. Photometric indicator and potato yield depending on the fungicides used // Bulletin of the Mari State University. 2019. No. 2).

The disadvantages of this method is that the causative agent of the disease quickly develops resistance to chemical fungicides, as a result of which their effectiveness decreases, which makes it necessary to increase the rates and frequency of treatments. In addition, the intensive use of chemicals increases the cost of production, leads to an increase in the pesticide load on the soil and there is a risk of obtaining environmentally unsafe products.

A number of methods for growing ecologically clean potatoes have been patented, aimed at improving its consumer qualities through the use of environmentally friendly technological methods and means of pest and disease control, ensuring the prevention of pollution of the environment and the potato crop by toxic substances.

A known method of preplant treatment of potato tubers, including preplant treatment of tubers with bacteria with fungistatic and growth-promoting properties, using an accumulative culture of Pseudomonas sp. For processing, a strain of Pseudomonas sp., isolated from coprolites of earthworms Eisenia fetida, is used. (RF Patent 2 663 335)

The disadvantage of this method is the lack of protective measures to combat pests and diseases during the growing season of potatoes, as a result of which the marketability and safety of tubers is reduced.

There is a way to combat potato diseases, which consists in pre-sowing treatment of potato tubers with Srezar at a concentration of 0.35-1.0 ml/l. Then the vegetating potato plants are sprayed with an aqueous solution of the fungicide of natural origin Srezar at a concentration of 100-300 ml/ha (at a dose of 2-6 g/ha according to the active substance). Processing of plants is carried out three times, starting from the phase of the beginning of flowering. The active substance is isolated by extraction from larch woody greens. (Patent RF 2 228 620)

The disadvantage of this method is that the drug acts only as a fungicide and it is necessary to carry out additional protective measures to combat pests.

An environmentally friendly method of growing potatoes is known, which consists in treating the tubers and the bottom of the furrow with a 5% solution of Fitosporin-M with a consumption rate of 10 liters per 1 ton of planting material by spraying with a nozzle. During vegetation, protection of potato plants from pests is carried out once with a 0.01% solution of Fitoverma-M at a consumption rate of 500 liters per 1 ha (RF Patent 2,556,902).

The disadvantage of this method is that no disease control measures are taken for vegetative plants.

For the prototype, a method for the biological protection of potato plants was chosen, including the treatment of tubers and plants during the growing season with a biological product mixed with an adhesive. For the treatment of potato tubers, Planriz is used as a biological product at the rate of 1000 ml per ton of tubers, and for the treatment of 1 hectare of plantings during the growing season, a mixture of Planriz biological products in the amount of 0.5 l and bankol in the amount of 0.2 l, diluted in 300- 350 liters of Zamankul mineral water, while corn paste is used as an adhesive in the amount of 1-1.5% of the mixture volume. (Patent RF 2 342 667)

The disadvantage of this method is that in the conditions of the Lower Volga region requires a large number of treatments in the fight against pests and diseases. And holding them not only until the closing phase in a row, but also during the period of intensive tuber accumulation.

The purpose of the invention is to reduce the pesticide load and obtain environmentally friendly products by replacing chemical potato protection products with low-cost biological products

The technical result is the possibility of reducing the pesticide load on the agricultural landscape, obtaining an increase in environmentally friendly products with high quality indicators in the conditions of light chestnut soils of the Lower Volga region.

The technical result is achieved by the method of biological protection in the technology of growing potatoes on light chestnut soils of the Lower Volga region includes pre-planting treatment of tubers with a solution of a biologically active drug and spraying vegetative plants with an aqueous solution of biofungicides, characterized in that microbiological fertilizers of complex action with protective functions are used as a biologically active drug BSka-3 at a dose of 5 l / t with the addition of humic fertilizer Humat +7 at a dose of 1 l / t, with a working solution consumption rate of 40 l / t, during the growing season 6 treatments are carried out on the aerial parts of plants starting from the germination phase with an interval of 10 days, the first, second, fifth and sixth treatments are carried out with BFTIM biofungicide at a dose of 5 l/ha, with a working solution rate of 300 l/ha and the addition of humic fertilizer Humat +7 at a dose of 1 l/t, the third and fourth treatments are carried out with BFTIM biofungicide at dose of 5 l/ha and bioinsecticide Insetim Zh at a dose of 5 l/ha, with a working solution of 300 l / ha and the addition of humic fertilizer Humat +7 at a dose of 1 l / t. The composition of the BSka-3 preparation includes the fungus Trichoderma viride, Pseudomonas koreensis, Bacillus subtilis, Rizobium japonicum, as well as their metabolic products. These microorganisms and their metabolites have powerful fungicidal and growth-promoting effects.

Insetim G consists of live gram-positive spore-forming soil bacteria Bacillus thuringiensis, used to control larvae of lepidopteran pests and mites.

BFTIM is a bacterial preparation based on the bacterium Bacillus amyloliquefaciens KS-2. Effective in the fight against fungal and bacterial diseases, and also strengthens the immune status of plants.

Humate +7 humic fertilizer stimulates the development of beneficial soil microorganisms, accelerates seed germination, promotes the development of a strong root system of plants, provides an increase in plant resistance to adverse environmental factors (lower temperature, insufficient light and moisture, etc.), to herbicide stresses, which ultimately increases the yield and improves the quality of the grown products.

Field trials were carried out on the experimental field of the UNPC "Gornaya Polyana" in the Sovetsky district of the city of Volgograd. Vineta potato variety was tested. The repetition is three times, the placement is systematic. Forerunner of perennial herbs.

First, preplant treatment of tubers was carried out with a microbiological fertilizer of complex action with protective functions BSka-3 at a dose of 5 l/t with the addition of humic fertilizer Humat +7 at a dose of 1 l/t. The consumption of the working solution was 40 l/t. from the seedling phase every 10 days with BFTIM biofungicide at a dose of 5 l/ha, at a working solution rate of 300 l/ha, with the addition of humic fertilizer Humat +7 to the working solution at a dose of 1 l/ha. In the third and fourth treatments, the bioinsecticide Insetim Zh is additionally added at a dose of 5 l/ha.

To determine the mycological composition of the soil from the experimental plot in the spring, before the introduction of protective equipment and after application, soil samples were taken according to the methodology. Tuber samples were also taken from planting material and after harvesting.

As a result of mycological analysis of soil samples, micromycetes with different trophic specializations were isolated and identified (Table 1). The pathogenic group is represented by fungi Verticillium spp., Fusarium spp., Altemaria spp.

By the end of the growing season, the quantitative and species composition of pathogenic microflora changes upwards, but against the background of the biological protection system, the quantitative indicators are lower compared to chemical treatments.

According to the ratio of ecological and trophic groups in all samples, the predominance of saprophytic microflora was revealed. At the beginning of the growing season, before planting potatoes, a high suppressiveness of the soils of the experimental plot was noted. By harvesting potatoes in the variant with chemical protection, an increase in pathogenic microflora by 4.8% was noted, while against the background of the use of biological preparations, a decrease in harmful microflora by 5.1% was noted.

Mycological analysis of planting material showed a strong infection of tubers with fungi of the genus Fusarium and low Altemaria and Rota. This indicates a predisposition to diseases such as fusarium, phomosis and alternariosis. At the end of the growing season, tubers were heavily infested with bacteria, as well as fungi of the genus Fusarium, but in the variant with the use of bioprotection, the degree of infection of potato tubers was not significant (Table 2).

The results of a qualitative analysis (Table 3) showed that the increase in the amount of starch in the biological protection variant was 2.76%, and in terms of dry matter content 1.95%. Assessing the chemical safety of products, we focused on the content of NO ₃ toxin in the tubers. According to the current sanitary standards, tubers are considered environmentally friendly, in which the presence of NO ₃ does not exceed 200 mg / kg. Comparison of the results of the analysis with the current sanitary norm shows that in all variants the content of NO _{3 is} significantly lower than the permissible threshold, but the indicators in the variant with the use of biologically active preparations, the content of nitrates was lower.

The use of biological preparations contributed to an increase in potato yield per 1 ha (Table 4). Growing potatoes with the use of biologically active preparations made it possible to obtain a crop represented by larger tubers and contributed to an increase in the gross potato harvest. A higher yield of potato tubers was obtained using the biological protection method - 37.9 t/ha, the increase was 7.0 t/ha or 22.7% in relation to the technology adopted in the economy, and also made it possible to reduce the pesticide load on agricultural landscapes by 100% .

One of the most important indicators in assessing the methods of cultivation of agricultural crops is their economic efficiency.

The analysis of table 5 allows us to conclude that the biological method of protecting Vineta potatoes was more effective than the chemical method.

Thus, the claimed method of biological protection in the technology of growing potatoes on light chestnut soils of the Lower Volga region provides a reduction in the pesticide load on agricultural landscapes, obtaining an increase in environmentally friendly products with high quality indicators in light chestnut soils of the Lower Volga region.

Claims (1)

A method for the biological protection of potato plants when cultivated on light chestnut soils of the Lower Volga region, including pre-planting treatment of tubers with an aqueous solution of a biologically active drug and spraying vegetative plants with an aqueous solution of a biofungicide, characterized in that microbiological fertilizers of complex action with the protective functions of BSka are used as a biologically active drug -3 at a dose of 5 l / t with the addition of humic fertilizer Humat +7 to the working solution at a dose of 1 l / t, during the growing season 6 treatments are carried out on the aerial parts of plants, starting from the germination phase, with an interval of 10 days with a biofungicide BFTIM at a dose of 5 l/ha with the addition of the humic fertilizer Humat +7 to the working solution at a dose of 1 l/t, the bioinsecticide Insetim Zh is additionally added to the third and fourth treatments at a dose of 5 l/ha.