CZ308145B6 - Fungicidal plant protection product based on essential oil of Thymus vulgaris, production and use - Google Patents

Abstract

The invention relates to a fungicidal plant protection product based on essential oil of, and comprises a stable form of essential oil ofas essential oil micro-droplets enclosed in a gelatin-chitosan-containing biopolymer containing 3:10, where 0.5 to 1.5 ml of essential oil of, 9.5 to 8.5 ml of rapeseed oil for diluting the essential oil, 0.2 ml of polyethylene glycol sorbitan monooleate are contained in 100 ml of the fungicidal composition, 13.3 ml of the biopolymer forming the microdroplet shell and 76.5 ml of 0.5 by weight sodium trypolyphosphate solution.

Description

Technical field

The present invention relates to a fungicidal plant protection product based on essential oil from Thymus vulgaris, a process for its production and use. The fungicidal composition is in the form of microparticles of essential oil from Thymus vulgaris, which allows its use in the protection of plants or cereals against fungal diseases, where the coating of microparticles protects the essential oil against evaporation and thus allows its prolongation. Furthermore, the concentration of essential oil in the microparticles and in the spray gun is optimized so that plant damage due to phytotoxicity is not avoided.

BACKGROUND OF THE INVENTION

The effects of essential oil from Thymus vulgaris are described in particular against fungal and bacterial pathogens in human medicine, as well as aqueous or ethanolic extracts from this plant in the food industry as protection of food against damage by landfill diseases.

The effect of Thymus vulgaris oil on the fungal pathogens of plant cereals has been described in the past (Matušinsky, P., Zouhar, M., Pavela, R., Novy, P. Antifunal effect of five essential oils against important pathogenic fungi of Cereal. Industrial Crops and Products, 67, 2015, 208-215), however, essential oils have so far been used in formulations which did not allow a prolonged effect after application due to their volatility. Furthermore, they were subject to rapid distribution due to climatic conditions, especially solar radiation.

In the process of protection of cereals against fungal diseases, a number of preventive, but especially curative methods of plant protection are applied, with application of fimgicides, both contact and systemic ones. In terms of changing legislation, the conditions for the application of alternative plant protection products are being created, especially in integrated cereal production systems. Of course, the use of fungicides also entails a residual burden on the food chain and drinking water sources. Among other things, the cumulative effect of pesticide residues is significant, where individual pesticides in the food do not exceed the set limit, but the accumulation of all the residues present poses a health risk. Scientific studies point to the risks associated with a higher incidence of cancer, allergies, disruption of hormonal balance and reproductive disorders in the population. Another significant problem associated with the use of synthetic pesticides is the emergence of pathogen resistance to these preparations.

SUMMARY OF THE INVENTION

The aforementioned drawbacks are remedied by a fungicidal plant protection agent based on the essential oil of Thymus vulgaris according to the invention, characterized in that it comprises a stable form of essential oil of Thymus vulgaris in the form of essential oil micro droplets enclosed in a gelatin-containing biopolymer container and chitosan in a ratio of 3:10, wherein 100 ml of the fimgicidal composition contained 0.5 to 1.5 ml of essential oil of Thymus vulgaris, 9.5 to 8.5 ml of rapeseed oil for diluting the essential oil, 0.2 ml of polyethylene glycol sorbitan monooleate, 13.3 ml of a biopolymer forming a microdroplet shell, and 76.5 ml of 0.5 wt% sodium trypolyphosphate solution.

The present invention further relates to the manufacture of a fimgicidal composition wherein 15 ml of 10% by weight of essential oil from Thymus vulgaris diluted in rapeseed oil is poured into the container, to which 300 µl of polyethylene glycol sorbitan monooleate is added and this mixture is emulsified by means of

At 20,000 to 22,000 rpm for 3 minutes, 20 ml of gelatin-chitosan biopolymer is added, and the mixture is emulsified at 20,000 rpm for 3 minutes, then the prepared emulsion is slowly poured into another container containing 114.7 ml of 0.5 wt% sodium trypolyphosphate solution at pH 5.0 at 18,000 to 22,000 rpm and then stirred for a further 3 minutes to form a stable fungicidal composition.

The use of a fungicidal plant protection product based on essential oil from Thymus vulgaris as a plant protection against the fungal pathogens Pyrenophora teres, Blumeria graminis and Fusarium cuhnorum for the purposes of ecological and integrated cereal cultivation systems is also the essence of the invention. 1 of a fungicidal composition.

The application of the fungicidal composition according to the invention makes it possible to limit the negative effects of the infestation of plants by fungal pathogens, taking into account the good health of the treated plants and phytotoxicity. The fungicidal composition has also been optimized in terms of retention over time or time for which efficacy is demonstrable and also in terms of phytotoxicity of the new formulation. Essential oil is formulated in three phases. In a first phase, an emulsion of 10% essential oil of Thymus vulgaris diluted with rapeseed oil is prepared by mixing at 20,000 rpm with a homogenizer for 3 minutes. In a second phase, the resulting microdroplets having a size of 20 to 40 µm are coated with a biopolymer composed of gelatin and chitosan. Gelatin 8 g / 200 ml must first be dissolved in distilled water using a magnetic stirrer equipped with a thermostat at 45 ° C and 150 rpm using a Teflon magnetic stirrer, then sorbitol in an amount of 0.15 g / g gelatin, and also glycerol in an amount of 0.15 ml / g gelatin. The mixture thus prepared must be stirred until all components are completely dissolved by means of a magnetic stirrer equipped with a thermostat at 45 ° C and 150 rpm using a Teflon magnetic stirrer.

Chitosan 2 g / 60 ml must first be dissolved in 0.15 M acetic acid and using a magnetic stirrer equipped with a thermostat at 45 ° C and 150 rpm using a Teflon magnetic stirrer.

In the next step, it is necessary to prepare the biopolymer by mixing the dissolved gelatin and chitosan in a ratio of 3:10 using a magnetic stirrer equipped with a thermostat at 45 ° C and 150 rpm using a Teflon magnetic stirrer.

The fungicidal composition of the present invention is then useful for protecting plants against the aforementioned pathogens.

Given the above aspects in the prior art description and the integration of cereal production, it is essential to develop new plant protection means for integrated and organic production methods for agricultural commodities. Industrial applicability is therefore socially desirable and is therefore a good precondition for extrapolating these funds into practice. The present invention is particularly directed to organizations active in the manufacture and marketing of new plant protection and growth promoters. The novel fungicidal composition according to the invention allows the application of essential oil so as to prolong its efficacy and prevent its deterioration by sunlight and in the open environment on the surface of plants with sufficient residual efficacy.

The attached drawing shows in Fig. 1 the damage of cereal leaves by the fungus Pyrenophora teres in individual treatment variants.

The fungicidal composition according to the invention has been successfully verified by the inventors in practice in the tests of applicants, which are the Czech University of Life Sciences in Prague, CZ, and Agrotest fýto, s.r.o., Kroměříž, CZ.

The following examples illustrate, but are not limited to, the fungicidal composition of the present invention.

-2 GB 308145 B6

DETAILED DESCRIPTION OF THE INVENTION

Example 1

The fungicidal composition of the invention was prepared as follows:

15 ml of 10% essential oil of Thymus vulgaris diluted in rapeseed oil was poured into a 100 ml beaker.

300 μΐ of polyethylene glycol sorbitan monooleate (TWEEN 80) (Sigma Aldrich PI754) was pipetted.

The mixture was emulsified with a D125 basic (IKA) homogenizer at 20,000 rpm for 3 minutes.

Next, 20 ml of chitosan-gelatin biopolymer in a ratio of 3:10 to each other was pipetted.

The mixture was emulsified in a homogenizer at 20,000 rpm for 3 minutes.

114.7 ml of a 0.5% sodium trypolyphosphate (TPP) solution (Sigma Aldrich T5633) at pH 5.0 was prepared in a high 250 ml beaker.

A 100 ml beaker was slowly poured into the TPP solution.

When pouring the TPP solution, it is necessary to emulsify at 20,000 rpm and then emulsify in the same way for a further 3 minutes.

The efficacy of the novel fungicidal composition of the invention was verified in a greenhouse experiment together with other selected fungicidal compositions designated A, B, G, D, and composition A is the subject of the invention. In each treatment variant, 168 plants (28 cultivation vessels of six plants) of spring barley (Hordeum vulgare) variety Prestige (susceptible to Pyrenophora teres) in each treatment variant were treated in the two-leaf phase with individual formulations by spraying the leaf with a fungicidal agent. , coacervate and a target concentration of 1% by weight. Before application, the plants were artificially inoculated with a mixture of conidia and mycelium fragments of Pyrenophora teres - 12 virulent isolates obtained in 2015 from barley in the Czech Republic. This ensured that the infestation of the plants was sufficient to evaluate the effectiveness of the individual treatment variants. The experiment also included a control variant without treatment and a variant with a standard synthetic fungicide as standard.

The results obtained are shown in the accompanying graphs 1, which show the percentage of leaf damage by Pyrenophora teres in each treatment variant. The best efficiency has reached the standard. In the variants treated with the individual fungicidal agents, the development of the leaf attack of the fungus Pyrenophora teres was significantly suppressed.

Example 2

The efficacy of the novel fungicidal composition of the invention was verified in another experiment under field conditions together with other selected fungicidal compositions labeled A, B, G, D, and composition A is the subject of the invention. In a field experiment the spring barley variety Malz susceptible to Blumeria graminis was sown. The application of the fungicidal compositions was carried out by spraying on the leaf during the appearance of the flag leaf. All four compositions were sprayed onto the foliar. The experimental scheme

A control (water) and a standard fungicide (Hutton

0.8 Lha ^-1 , Prothioconazole 100 g / l, Spiroxamine 250 g / l, Tebuconazole 100 g / l). All variants were established in 4 repetitions with plots of 10 m ² randomly distributed. The evaluation was performed at the stage of milk maturity. In each case, 40 leaves were evaluated in each of the F-2 and F-3 leaf trays.

The results obtained are shown in Table 1. The application of the fungicidal composition according to the invention A resulted in a significant reduction in leaf damage by the pathogen Blumeria graminis, a variety of spring barley Malz.

Table 1

Variant Sheet F-2 Sheet F-3 diameter efficiency Control 3.50 30.09 16.79 - Hutton 0.00 4, H 2.05 87.76 AND 0.12 23.01 11.56 31.14 (B) 0.53 26.78 13.65 18.69 G 0.37 27.70 14.03 16.43 D 0.22 26.13 13.17 21.55 diameter 0.79 22.97 11.88 -

Example 3

The efficacy of the novel fungicidal composition of the invention was verified in a further experiment under field conditions together with other selected fungicidal compositions designated A, G, D, and composition A is the subject of the invention. In a field experiment, winter wheat Bohemia was sown. Before the application of the fungicidal agents in the flowering stage of the flowering, artificial inoculation of the plants with the macroconidia of the virulent strain E culmorum was also carried out. The application of fungicidal agents was carried out by spraying into ears. The control (water) variant with inoculation and the control variant without inoculation were included in the experimental scheme. Furthermore, the standard fungicide variant (Prosaro 0.75 Lha ¹ , Prothioconazole 125 g / l, Tebuconazole 125 g / l). All variants were established in 4 replicates with plots randomly spaced. The evaluation was carried out at the stage of milk-wax maturity. 80 ears were evaluated in each variant. After harvesting, deoxynivalenol (DON) was sent to determine mycotoxin content by ELISA.

The results obtained are shown in Table 2. The application of the fungicidal composition of the invention A resulted in a significant reduction in the mycotoxin content.

Table 2

Variant % attack on ears efficiency DON pg.kg ¹ efficiency Inoculation check yes 7.00 - 4861.2 - Prosaro 0.00 100 ALIGN! 508.5 89.53 AND 3.00 57.14 1588.0 67.33 G 6.00 14.28 2458.0 49.43 D 6.00 14.28 2705,5 44.34 No inoculation control 0.0 100 * 52.5 98,92 * diameter - - 2028,95 -

* The value marked with an asterisk does not indicate the efficacy of the application, it only indicates the effect of not inoculating

-4 CZ 308145 B6

Industrial applicability

The novel stable fungicidal plant protection agent against fungal pathogens based on essential oil from Thymus vulgaris is characterized in that the essential oil microdroplets are enclosed in a gelatin-chitosan-containing biopolymers package, and the invention also relates to the production of these microcapsules. For the protection of plants, this suspension can be used for cereals at a concentration of 10% by weight, coacervate and, subsequently, 1% by weight, of essential oil from Thymus vulgaris into the spray well at a rate of 300 l / ha.

PATENT CLAIMS

Claims (3)

A fungicidal plant protection product based on essential oil of Thymus vulgaris, characterized in that it comprises a stable form of essential oil of Thymus vulgaris in the form of essential oil microdrops which are encapsulated in a 3:10 biopolymers package containing gelatin and chitosan. 0.5 to 1.5 ml of essential oil from Thymus vulgaris, 9.5 to 8.5 ml of rapeseed oil for diluting the essential oil, 0.2 ml of polyethylene glycol sorbitan monooleate, 13.3 ml % of the biopolymer forming the shell of the microdroplets and 76.5 ml of 0.5% by weight, sodium trypolyphosphate solution. A process for the manufacture of a fungicidal composition according to claim 1, characterized in that 15 ml of 10% by weight of essential oil of Thymus vulgaris diluted in rapeseed oil is poured into the container, to which 300 μΐ of polyethylene glycol sorbitan monooleate is added and emulsified. using a homogenizer at 18,000 to 22,000 rpm for 3 minutes, 20 ml of gelatin-chitosan biopolymer is added, and the mixture is emulsified at 20,000 rpm for 3 minutes, then the prepared emulsion is slowly poured into another container containing 114.7 ml 0.5% by weight of a sodium trypolyphosphate solution having a pH of 5.0 at 18,000 to 22,000 rpm and then stirred for a further 3 minutes to form a stable fungicidal composition. 3. Use of a fungicidal plant protection product based on essential oil from Thymus vulgaris as a plant protection against the fungal pathogens Pyrenophora teres, Blumeria graminis and Fusarium culmorum for the needs of ecological and integrated cereal cultivation systems, 200 to 400 l of fungicide per ha means.