RU2239319C1 - Method for fighting against phytopathogenic fungi and fungicidal preparation - Google Patents

Abstract

FIELD: agriculture, plant protection.

SUBSTANCE: seed material of grain varieties should be treated with natural mixture of triterpene acids or Biosil preparation and, at least, with one fungicides out of the group including tebuconasol, carboxin, flutriafol, tiabendasol, tarm, triticonasol at certain ration. The method enables to enhance the action of chemical fungicides against the main diseases at decreased norms of their expense, increase crop yields, increase production quality and, also, decrease ecological loading of chemical pesticides upon environment.

EFFECT: higher efficiency of struggle.

6 cl, 9 ex, 4 tbl

Description

The invention relates to agriculture and can be used to protect crops from disease, as well as to increase productivity and grain quality.

The task of obtaining high and stable grain crops while reducing environmental pollution always remains relevant. In this regard, a constant search, creation and implementation of highly effective means, as well as new methods of protection against diseases that meet modern technology and environmental requirements, is required. Chemical means of plant protection that have been used for many years in agriculture lead to a disruption of the natural balance in ecosystems that have developed over millennia and an increase in occupational diseases. Environmental pollution has led to the death of a number of beneficial insects, wild birds and animals, soil microorganisms and many species of fish. Therefore, the creation of new methods of plant protection using environmentally friendly natural growth regulators that reduce the dose of chemicals and reduce the risk of occupational diseases is a very urgent task. The creation of such methods of protection allows not only to improve the ecological situation, but also to obtain high-grade, stable grain crops.

There are various methods of plant protection using chemical fungicides, such as Fenoram super, Vitavax 200 FF, Raxil, Vincit, Premium, Sumi-8, etc. (The Pesticide manual, Twelfth Edition, 2000; List of pesticides and agrochemicals approved for use in the Russian Federation. Supplement to the journal Plant Protection and Quarantine, No. 4, 2003). These fungicides consist of the following active substances: super, SP and Vitavax 200 FF-carboxine and thiram; Raxil, KS-tebuconazole; Vincit, KS-flutriafol and thiabendazole; Premis, KS-triticonazole.However, these drugs in recommended (full) doses of their use cause some harm to the environment and inhibit growth processes in the seedling phase, i.e. possess retardant properties.

A known method of combating diseases of grain crops (RU No. 98101941), comprising treating seeds and vegetative wheat plants with a natural Silk growth regulator, which is the natural amount of triterpene acids. However, this method is not sufficiently effective against major diseases of crops, including dusty and hard smut.

The well-known natural growth regulators Silk and Biosil are obtained on the basis of triterpenic acids isolated from Siberian fir needles. However, a significant difference between Biosil and Silk is that Biosil is obtained by extraction with aliphatic alcohols selected from the group of alcohols with the number of carbon atoms 1-3 containing not more than 50 wt.% Water (RU No. 2179393). In terms of biological activity, the Biosil preparation is superior to Silk in carrot, beet, potato and cabbage crops (according to research by the Novosibirsk State Agrarian University, 2002). Unlike Silk on wheat, the Biosil preparation helps to obtain a higher content of crude gluten up to 3.2% and the optimal ratio of protein: gluten (TsINAO data, 2001).

Closest to the claimed method (prototype) is a method of increasing the yield and sugar content of grape berries using a fungicidal agent, which is a tank mixture of Silk growth regulator and Bordeaux liquid, which is a synthetic fungicide used to combat fungal diseases with a single spray at the rate of 30 g on 1 hectare (Collection of scientific works / KGAU, issue 394 (422), Krasnodar, 2002, p.147-151).

This method leads to an increase in shoot growth by 25-30%, an increase in yield to 13.9 kg / ha and sugar content by 2.7%.

The disadvantage of the prototype is that it is not acceptable for the fight against diseases of crops, since Bordeaux liquid is used only in vegetables, fruit crops and grapes. This prototype does not allow to deal with such dangerous diseases of crops as fusarium and helminthosporious root rot, dusty and hard smut.

The technical task of the present invention is to develop a method and fungicidal agent used in this method, in which the consumption rates of chemical fungicides are reduced by adding a natural growth regulator to them in order to reduce plant damage by a complex of diseases, increase yield and product quality.

This object is achieved in that in a method of controlling phytopathogenic fungi, comprising treating their habitat space or to be protected from damage to plants and seeds by at least one growth regulator and at least one synthetic fungicide, at least one of fungicides selected from the group consisting of tebuconazole, carboxin, flutriafol, thiabendazole, tiram, triticonazole, in a ratio by weight of active substances growth regulator: synthetic fungicide, 3-10 : 2.5-250.

The growth regulator and fungicide can be used in the form of their tank mixture or separately, while the processing of these drugs is carried out simultaneously or sequentially.

As a growth regulator, the Biosil preparation is used, obtained on the basis of triterpenic acids isolated from the woody greens of Siberian fir by extraction with aliphatic alcohols selected from the group of alcohols with the number of carbon atoms 1-3 containing not more than 50 wt.% Water.

The treatment is preferably subjected to the seeds of any cereal crops.

Another object of the invention is a fungicidal agent for controlling phytopathogenic fungi containing at least one growth regulator and at least one synthetic fungicide, at least one fungicide selected from the group consisting of tebuconazole, carboxin, flutriafol is used as a fungicide , thiabendazole, thiram, triticonazole, in a ratio by weight of active substances, growth regulator: synthetic fungicide, 3-10: 2.5-250.

Preferably, the Biosil preparation is used as a growth regulator, obtained on the basis of triterpene acids isolated from the woody green of Siberian fir by extraction with aliphatic alcohols selected from the group of alcohols with the number of carbon atoms 1-3 containing not more than 50 wt.% Water.

Seeds (grain) of cereal crops are etched with a complex consisting of a synthetic fungicide and a natural growth regulator. As such a complex, a natural mixture of triterpenic acids (or the Biosil preparation) and chemical fungicides containing the active substance tebuconazole (or carboxin, thiram, flutriafol, thiabendazole, triticonazole) are used. The optimal doses of the components are selected experimentally and amount to 1 ton of seeds of cereal crops as follows: triterpene acids 5 g a.a. (or Biosil - 50 ml); tebuconazole 3 g ai (or “Raksil, KS” - 0.25 L); carboxin 100 g ai + tyram 100 g ai (or “Vitavax 200 ff”); flutriafol 2.5 g ai + tabendazole 2.5 g ai (or drug Vincit 1 l); triticonazole 20-50 g ai (or “Premium, KS” 1 liter). The above doses correspond to the ratio of growth regulator: synthetic (chemical) fungicide - 5: 3; 5: 200; 5: 5; 5: 20-50.

A preparative form of the Biosil growth regulator is prepared by dissolving the active substance (the sum of triterpene acids) in an emulsifier by heating and adding hot water to the required concentration. The result is a 10% aqueous emulsion of a commercial preparation, which is diluted with water to a desired concentration before use.

The fungicidal formulation is prepared by pouring the components into the factory binary packaging or by adding the Biosil growth regulator directly to the packaging (canister) during the manufacturing of synthetic fungicides.

The counts and observations were carried out according to generally accepted methods accredited by research institutes in the conditions of laboratory field experiments. The experiments were carried out taking into account the recommended regional agricultural technology. Studies were conducted on zoned cereal varieties. Sowing was carried out according to agrotechnical dates. The seeding rate was consistent with the agricultural technology of crop cultivation.

The proposed method allows you to effectively deal with various types of root rot and smut diseases (smut and hard smut) of cereal crops (wheat, barley, oats, rye), as well as to increase germination, germination energy, reduce the retardant effect, enhance the growth of the root system and shoots while reducing the pesticidal load per unit area.

The following are examples of the implementation of the present invention. These examples confirm, but do not limit the application of the claimed invention.

Example 1

For the treatment of seeds of wheat, barley, rye, oats, a mixture of a natural growth regulator and synthetic fungicide is prepared as follows. Water is poured into the tank of the pickling machine at the rate of 8-10 liters per 1 ton of seeds, then the Biosil preparation is added at the rate of 30-60 ml per 1 ton, the Raksil, KS chemical fungicide is mixed and poured at the rate of 0.25-0.5 l per 1 ton of seeds (ratio of growth regulator: fungicide 3 ... 6: 3 ... 6).

Example 2

For the treatment of seeds of wheat, barley, rye, oats, a mixture of a natural growth regulator and synthetic fungicide is prepared as follows. Water is poured into the tank of the pickling machine at the rate of 8-10 liters per 1 ton of seeds, then the Biosil preparation is added at the rate of 30-60 ml per 1 ton, the Vitavax 200 FF chemical fungicide is mixed and poured at the rate of 1.5-3 l / t (ratio of growth regulator: fungicide 3 ... 6: 100-200).

Example 3

For the treatment of seeds of wheat, barley, rye, oats, a mixture of a natural growth regulator and synthetic fungicide is prepared as follows. Water is poured into the tank of the pickling machine at a rate of 8-10 liters per 1 ton of seeds, then the Biosil preparation is added at a rate of 30-60 ml per 1 ton, the chemical fungicide Vincit is mixed and poured at a rate of 1-2 l / t (growth regulator ratio: fungicide 3 ... 6: 2.5 ... 5)

Example 4

For the treatment of seeds of wheat, barley, rye, oats, a mixture of a natural growth regulator and synthetic fungicide is prepared as follows. Water is poured into the tank of the pickling machine at the rate of 8-10 liters per 1 ton of seeds, then the drug Biosil (triterpene acids) is added at the rate of 30-60 ml per 1 ton, the Fenoram super chemical fungicide is mixed and poured at the rate of 1-2 kg / t (ratio growth regulator: fungicide 3 ... 6: 100-200).

Example 5

For the treatment of seeds of wheat, barley, rye, oats, a mixture of a natural growth regulator and synthetic fungicide is prepared as follows. Water is poured into the tank of the pickling machine at the rate of 8-10 liters per 1 ton of seeds, then the Biosil preparation is added at the rate of 30-60 ml per 1 ton, the chemical fungicide “Premium, KS” is mixed and poured at the rate of 1-1.5 l / t (ratio of growth regulator: fungicide 3 ... 6: 20-50).

Example 6

In the process of prefabrication (formulation) of the above liquid chemical fungicides, 100 l of Biosil are added before pouring into 1,000 l of Raksila, KS into consumer containers; per 1000 l of “Vitavax 200 FF” - 20 l of Biosil; per 1000 liters of “Premium KS” - 42 liters.

Example 7

Mycological analysis of the underground organs of spring wheat showed that the main causative agent of root rot in the experimental field was the imperfect fungus Bipolaris sorokiniana, which was isolated from 100% of the segments of the epicotyl and the base of the stems. In 10% of cases, a conjugate infection of Bipolaris sorokiniana and Fusarium oxysporum was noted. Tests of drugs were carried out in the following concentrations: Biosil -0.005% (50 ml / t); Vitavax 200 FF - 0.15% (1.5 l / t); Raxil - 0.025% (0.25 l / t).

The results of observations of the growth of colonies of Fusarium oxysporum under the influence of the claimed method of protection are shown in table 1.

The data presented indicate that all the studied drugs to some extent suppressed fungal growth. “Vitavax 200 FF” and its tank mixture with Biosil possessed the greatest fungicidal properties. Colony growth was not observed on Petri dishes with these preparations for the entire observation period.

Significant suppression of the growth of Fusarium oxysporum was also noted on the variants Raksil, KS, Biosil and their tank mixture. By the last point of the count, the difference in the diameter of the colonies between these options reached 2-3 times.

In the Raxil variant, an increase in aerial white unpigmented mycelium was noted throughout the observation period. The tank mix "Raxil, KS" + Biosil more strongly suppressed fungal growth than pure preparations, the colonies were white with dark pigmentation in the center.

The results of observations of the growth dynamics of the colonies of Bipolaris sorokiniana are presented in table 2.

The above examples allow us to conclude that all the studied drugs significantly inhibited the growth of the pathogenic fungus Bipolaris sorokiniana and influenced the nature of the growth of the pathogen. Especially strong fungicidal effect, as in the case of Fusarium oxysporum, had “Vitavax 200 FF” and its tank mixture with Biosil. Throughout the observation period, no growth of pathogen colonies was noted.

Significant inhibition of the growth of the main root rot pathogen was also ensured by the addition of Biosil, Raxil KS and their tank mixture to the medium. At the last accounting point, the difference between these options with control was 1.6, 3.7, and 6.3 times, respectively. The nature of the growth of the fungus also changed significantly under the influence of drugs.

“Raxil, KS” caused mucous bacterium-like growth in the pathogenic fungus Bipolaris sorokiniana without signs of pigmentation and aerial mycelium. Under the influence of the mixture “Raksila, KS” with Biosil, the inhibition of fungal growth was more significant than in the variants with pure preparations (without mixing).

Example 8

Tests of the effectiveness of mixtures against root rot of Bipolaris Sorokiniana were carried out on two contrasting artificial infectious backgrounds with a difference in the level of soil infection by 4-5 times. The background of infection of wheat seeds with root rot was higher than the permissible phytosanitary limits in accordance with international recommendations for testing drugs. The data are presented in table 3.

The inventive method allows to achieve high biological effectiveness against the main types of root rot and smut diseases of wheat. It was found that the addition of the Biosil growth regulator to chemical seed dressers enhances the activity of the latter against smut diseases up to 100%.

Example 9

Field experience to confirm the biological effectiveness of the claimed method of protection was carried out on the experimental field of the Research Institute of Cytology and Genetics SB RAS. The tests were carried out on spring wheat Novosibirsk 89. Tillage and sowing were carried out according to generally accepted technology. Experience laid in 4-fold repetition. The predecessor is steam. Seed treatment was carried out 1 day before sowing. The research results are shown in table 3.

Field studies showed that the claimed method of protection can reduce the incidence compared with the control from 11.7 to 25% and increase the mass of grain from 1 m ² from 8.7 to 86.6%.

Claims (6)

1. A method of controlling phytopathogenic fungi, comprising treating their habitat space or to be protected from damage to plants and seeds by at least one growth regulator and at least one synthetic fungicide, characterized in that at least one of the synthetic fungicide is used fungicides selected from the group comprising tebuconazole, carboxin, flutriafol, thiabendazole, tiram, triticonazole, and as a growth regulator use the drug Biosil, obtained on the basis of triterpene acids Isolated from green wood Abies sibirica by extraction with aliphatic alcohols selected from the group consisting of alcohols with 1-3 carbon atoms, containing no more than 50 wt% water, at a ratio by weight of active ingredients 3-10. 2,5-250. 2. The method according to claim 1, characterized in that the growth regulator and fungicide are used as a mixture thereof. 3. The method according to claim 1, characterized in that the growth regulator and fungicide are used separately, while the treatment with drugs is carried out simultaneously. 4. The method according to claim 1, characterized in that the growth regulator and fungicide are used separately, while the treatment with drugs is carried out sequentially. 5. The method according to claim 1, characterized in that the processing is subjected to the seeds of any cereal crops. 6. A fungicidal agent for controlling phytopathogenic fungi containing at least one growth regulator and at least one synthetic fungicide, characterized in that at least one of the fungicides selected from the group consisting of tebuconazole, carboxin, flutriafol is used , thiabendazole, thiram, triticonazole, and as a growth regulator use the drug Biosil, obtained on the basis of triterpene acids isolated from woody green Siberian fir by extraction with aliphatic alcohols, selected wounded from the group of alcohols with the number of carbon atoms 1-3, containing not more than 50 wt.% water, with a ratio by weight of active substances of 3-10: 2.5-250.