RU2694202C1 - Potato tubers pre-sowing treatment means - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the agriculture. Agent for pre-sowing treatment of potato tubers contains salicylic acid, Trichoderma fungus metabolites, selenium and a magnesium source, with the following ratio of components, wt. %: salicylic acid 0.000001; metabolites of Trichoderma fungus 0.000000001; selenium 0.0001; magnesium sulphate MgSOor magnesium chloride MgCl⋅6HO 0.0001; water 99.999798999.EFFECT: invention allows to increase commercial tuber weight, productivity, productivity and resistance to late blight.1 cl, 4 tbl, 4 ex

Description

The invention relates to agriculture and biotechnology, in particular, to the means for presowing treatment of seeds and spraying of vegetating plants of potatoes and can be used in the cultivation of potatoes to improve immunity to susceptibility to diseases and pests and increase productivity.

Presowing treatment of seeds is carried out with substances that have a protective and stimulating effect, increase immunity, contribute to an increase in plant growth activity, protect them from diseases and pests and ultimately increase yields.

A wide range of growth substances and plant protection products from weeds, pests and diseases is known. A significant part of these drugs belongs to the category of chemical compounds that pollute the environment and create a danger to human and animal health. However, the requirements of ecology lead to the need to create drugs that belong to the category of biological products, the use of which in small doses would be effective.

Salicylic acid, which induces the resistance of plants, such as tobacco and cucumber to fungal and bacterial diseases, is also known as a means of improving disease resistance (Tarchevsky I.A., Maksyutova N.N., Yakovleva V.G. The influence of salicylic acid on protein synthesis in seedlings peas. // Fiziol. rast., 1996, t. 43, No. 5. S. 667-670 [2].

The closest to the proposed is a means for presowing treatment of pea seeds, consisting of salicylic acid, magnesium ions and bean seed lectins, which can be considered as a biological product (patent No. 2372763, class G01 No. 21/00, 2009)) [1].

The disadvantage of the above preparations is that their effect does not apply to potatoes.

The objective of the invention is to increase resistance to the causative agent of late blight (P. infestans) potatoes and increase their productivity.

The problem is solved due to the fact that the metabolite of the fungus Trichoderma is additionally introduced into a known agent containing salicylic acid and a source of magnesium, according to the invention, in the following ratio, wt.%:

Salicylic acid - 0.000001 Trichoderma mushroom metabolites - 0.000000001 Selenium - 0.0001 Magnesium sulfate MgSO ₄ or magnesium chloride MgCl ₂ - 0.0001 Water - 99,999798999

Metabolites from extracts of fruit bodies of higher basidiomycetes, in particular, Trichoderma possess biological activity; one of the most important characteristics of which is bactericidal.

Methods for isolating metabolites from the fungus Trichoderma

Fungus metabolites were obtained by cultivating the latter on Chapek agar by the method of deep cultivation on a rocking chair for five days at a temperature of 25 ± 2 ° C. For pre-cultivation, the studied strain was seeded on nutrient agar (GRM-agar) produced by the FSUE "State Scientific Center for Applied Microbiology and Biotechnology", then incubated in a thermostat for three days at 37 ° C. The resulting isolated typical colonies were collected in a loop and suspended in tubes with sterile saline according to the turbidity standard. The sowing dose of suspension of microorganisms was 1.5 × 108 CFU / ml

Selene plays an important role in enhancing the adaptive potential of plants.

The important role of magnesium for the plant is that it is part of chlorophyll, a substance that determines the green color of the plant. Chlorophyll is vital for plants, because it is responsible for absorbing the energy of the Sun and turning it into chemical energy necessary for life.

The mechanism of action of the proposed agent is that it induces the expression of genes responsible for immunity and activates the enzymes and reactions necessary for the synthesis of chlorophyll and the light reaction of photosynthesis.

Example 1

Testing the protective properties of the components of the proposed agent against late blight pathogen (P. infestans) was performed using the method of biotesting. The surface of the discs cut from potato tubers was treated with the components of the proposed agent.

Control option:

1 - option without processing;

Test options:

1 - treatment in salicylic acid solution of 0.000001%;

2 - treatment in a solution of metabolites from the fungus Trichoderma 0,000000001%;

3 - treatment in a solution of selenium 0.0001%;

4 - treatment in a magnesium solution of 0.0001%;

5 - Fitosporin;

6 - the proposed remedy.

Then, after 2 hours, they were infected with a suspension of the P.infestans pathogen zoospores. The use of such a model makes it possible to assess the ability of potato tubers to cause phytostability.

The degree of damage to potato tubers by late blight (P. infestans) was assessed by the depth of penetration into the tissue of the disks of late blight pathogen (P. infestans) counting from the infection surface, microscopically counting the cell layers into which the pathogen hyphae (P. infestans) had penetrated 2, 4, 5th and 7th day.

According to the data obtained, the degree of damage to potato discs in the control variant without processing on the 5th day of the experiment turned out to be 100%. A solution of salicylic acid of 0.000001% restrained the damage of P. infestans until the end of the experiment at the fifth disc - 10%. Selenium 0.0001% also showed a 100% lesion, but on the 7th day. Magnesium solution of 0.0001% slightly inhibits the development of a pathogen and at the end of the experiment all discs are 100% affected. When used for processing the solution of the metabolites of the fungus Trichoderma 0,000000001% the degree of damage was negligible. Industrial drug "Fitosporin M" showed infection on the 5th and 7th day in the first three disks. When applying the proposed remedy, a pathogen defeat was detected only in the first disc and only at the end of the experiment 10%. (Table 1).

Thus, under the influence of the proposed remedy, the smallest number of disks affected by the pathogen P. infestans was detected (1 disk, 10% lesion at the end of the experiment).

Example 2

The effectiveness of the proposed tool is determined by the influence of its components and the tool itself for pre-sowing treatment of potato tubers on barley coleoptiles, as test systems for testing the biological activity of substances by measuring the length of coleoptiles.

The barley was germinated until the appearance of the coleoptile, isolated the actual coleoptile, adjusted its length to 1 cm, and placed it in the test solution. Coleoptiles were grown in a 5 ml vegetative vessel. The number of coleoptiles in one repetition - 100 pcs.

The volume of the nutrient solution is 2 ml. The experiment was carried out for 10 days, readings of growth were recorded daily.

Control option:

1 is a variant without processing, i.e. germination in water.

Test options:

1 - germination in salicylic acid solution of 0.000001%;

2 - germination in a solution of metabolites from the fungus Trichoderma 0,000000001%;

3 - germination in a solution of selenium 0.0001%;

4 - germination in a solution of magnesium 0.0001%;

5 - Fitosporin;

6 - the proposed remedy.

For ten days, growth parameters were measured daily (coleoptile length) (Table 2)

Studies have shown that all the tested components, in comparison with the control variant soaking in water, showed a growth-promoting activity against barley coleoptiles. The length of kaleoptil increased from 1.00 cm to 1.72 cm - 2.12 cm. The proposed result showed the highest result (2.12 cm). Industrial drug "Fitosporin M" showed the result below (2.00 cm).

Thus, it was revealed that the proposed remedy increases the growth abilities in relation to coleoptile barley.

Example 3

Field studies were conducted on experimental fields in VNIIZBK village. Streletsky. The soil of the experimental plot is sod-podzolic, medium loamy with humus content (according to Tyurin) 1.6-2.1%, the pH of the salt extract is 4.9-6.0.

In the experiments used medium-early potato variety "Blue". Field experience:

Option 1 - control, without treatments;

Option 2 - treatment of tubers with Fitosporin M (25 ml / t) + foliar treatment (50 ml / ha) in the budding phase - the beginning of flowering;

Option 3 - treatment of tubers with the proposed means, (treatment of tubers + spraying) + foliar treatment in the budding phase - the beginning of flowering;

Option 4 - treatment of tubers with the proposed means (treatment of tubers + spraying).

The lowest prevalence of the disease and its development on the leaves was observed on the variant with the use of the proposed remedy. When treated with Fitosporin M, the prevalence and progression of the disease was higher and amounted to 7.6–4.3%, compared with the control.

The advantage of the proposed tool is that it prevents the penetration of phytopathogen into plants and suppresses its development for a long time, forming resistance to late blight. The immunostimulating effect of phytosporin against late blight was manifested to a lesser extent.

The results of the study showed that the treatment with the proposed remedy reduces the prevalence and development of late blight on potatoes "Blue".

Example 4

The research results showed that when processing the proposed tool there is an increase in the mass of commodity tuber by 6.1%, compared with the control. Productivity increases by 15.9%

The greatest increase in the yield of potato varieties "Blue" was obtained in the variant with the use of the proposed means (treatment of tubers + spraying). In this case, a significant increase in control was 15.7%. A smaller, but also reliable yield increase was obtained on the variant with the application of the proposed agent (spraying) and the industrial preparation "Fitosporin M" 6.2% and 5.7%, respectively.

Thus, when using the proposed means for presowing treatment and subsequent spraying during the growing season, the highest yield of potatoes is shown.

The proposed new tool has a complex effect on potato plants, increasing the mass of the commodity tuber, productivity, yield and resistance to late blight. The proposed tool is environmentally safe and does not require large expenditures for production.

Claims (2)

Means for presowing treatment of potato tubers, containing salicylic acid, characterized in that it additionally contains metabolites of the fungus Trichoderma, selenium and a source of magnesium in the following ratio of components, mass. %: Salicylic acid 0,000001 Trichoderma mushroom metabolites 0,000000001 Selenium 0.0001 Magnesium sulfate MgSO ₄ or magnesium chloride MgCl ₂ ⋅6H ₂ O 0.0001 Water 99,999798999