UA134713U - FUNGICID COMPOSITION - Google Patents

Abstract

The fungicidal composition contains as active ingredient tebuconazole and auxiliary agents. Additionally, the composition contains as the active ingredient myclobutanil and thiophanate-methyl.

Description

The utility model belongs to the field of chemical protection of agricultural crops, in particular to fungicidal compositions designed to protect cultivated plants from fungal diseases such as powdery mildew, oidium, white rot, black rot, rust, alternaria, septoriosis, macrosporosis, gray rot, etc.

Fungicides (from the Latin rypadi - mushroom and saido - kill, destroy) - substances used to protect plants from pathogens of fungal diseases. Chemical substances used to protect plants from bacterial diseases (bactericides) also belong to this group. The possibility of curing plants from fungal diseases by treating the leaves or root system with preparations was established in the 19th century, when the origin of fungal diseases was first substantiated and the first inorganic protective fungicides were created - Bordeaux liquid, etc. The steps taken in this direction led to certain successes: potato scab was suppressed with sulema, grape anthracnose with copper vitriol, pear burn with zinc chloride. With the advent of such protective fungicides as dithiocarbamates and captan in the 1940s, a large number of organic compounds were synthesized and tested to find out their medicinal properties. In most cases, they were not effective enough or had a negative impact on plant development when destroying pathogens. In further studies, it was proved that plants are able to show resistance against phytopathogenic fungi, and this resistance depends on the presence of natural antifungal compounds in plants or on the release of such compounds (phytoalexins) by plants in response to pathogen invasion. Some of the phytoalexins were isolated, but they were ineffective when applied to leaves because they did not reach the area that needed treatment. Plants secreted phytoalexins only in places of plant damage. But it became clear to scientists: if phytoalexins are formed in plants, then they can be synthesized. Considerable success was achieved by chemists and doctors who obtained bactericidal systemic fungicides that are non-toxic to humans. With the discovery of penicillin in 1940, the selection of a series of chemotherapeutic antibiotics began, the effectiveness of many of which was also studied on plants.

The modern assortment of fungicides is classified on the basis of three main principles: depending on the nature of the effect on pathogens, purpose and chemical nature. According to the nature of action on pathogens, fungicides are divided into two groups: protective (prophylactic) and therapeutic (curative, eradicating, curative, destroying).

Depending on the chemical properties, fungicides are: inorganic: copper - copper sulfate, copper chloride; sulfur compounds - lime-sulfur decoction, ground and colloidal sulfur; mercury - mercury chloride; organic (the largest group), for example: derivatives of carbamic acid - zineb, cuprocin-1, polymarcin, polycarbacin; phthalimides - captan, phthalan; quinones - figon; ethers of dinitroalkalphenols - karatan; organomercury compounds - granozan, mercurhexane; oxatiene compounds - vitavax; drugs based on benzimidazole - benomyl; biological: preparations of living organisms, products of their vital activity, used by farmers to protect the plant during its growing season from diseases caused by fungal and bacterial pathogens.

The nature of the use of fungicides is also different. They are used to treat seeds - it is used to fight diseases, the causative agents of which spread with seeds or are in the soil. There are preparations for soil treatment - they destroy soil pathogens of plant diseases, which are especially effective in greenhouses and greenhouses. There are fungicides for treating plants during the rest period - they destroy the wintering stages of the pathogen, they are used in early spring before bud break, in late autumn and winter. Fungicides for processing during the growing season are mainly preventive drugs used in the summer for spraying and fumigation of warehouses, in particular granaries and vegetable warehouses.

When choosing fungicides, first of all, information about the sources of primary and secondary infection, as well as the time of damage and the rate of infection growth are taken into account. Against pathogens on the surface of the seeds and in the soil, you can use a fungicide of contact protective action, which is characterized by significant stability in the soil. If the infection is in the middle of the seed, a systemic drug that moves well up the plant is needed. In this case, preference is given to a fungicide with a wide spectrum of action, as well as with several active substances. To improve the quality of processing, you should use preparations with an adhesive. In addition, the criterion for the correct selection of the poison is: the spectrum of fungicidal activity, especially against powdery mildew diseases, the peculiarities of the spread of pathogens in this region, phytoexpertise of the seed material, phytosanitary situation in the previous season. To prevent the emergence of resistant populations, it is necessary to provide for the alternation of fungicides from different chemical groups.

Today, the problem of protecting plants and creating 60 favorable conditions for their development is acute in agriculture. At this stage of agricultural development, the cultivation of plant products on an industrial scale is impossible without the use of chemical plant protection agents. Fungicides, which effectively control fungal diseases, are an important component of measures aimed at increasing the yield of agricultural crops.

Today, the market of Ukraine offers a rather wide range of various domestic and foreign preparations for processing plants to control the causative agents of fungal diseases. However, among the wide list of drugs, only some can be classified as highly effective.

Tebuconazole can be mentioned among the effective fungicidal agents that are widely used today.

Tebuconazole - (H5B)-1-p-chlorophenyl-4,4-dimethyl-3-(1H-1,2,4-triazol-1-ylmethyl)pentan-3-ol or a-(2-(4-chlorophenyl) )ethyl-α-(1,1-dimethylethyl)-1H-1,2,4-triazole-1-ethanol Tebuconazole is characterized by the general formula.

M

/ Z no ah su

SI

Tebuconazole was described in patents EP 0040345, EP 0087148 and EP 0072580 relating to 1-hydroxyethylazole derivatives, their preparation and their use for plant growth regulation and as fungicides.

A known fungicidal composition (ША 24512, pub. 10.07.2007, А0ИМ 43/00) containing tebuconazole, water and auxiliary substances, which contains as auxiliary substances the brand emulsifier

Zorgorpogi 5C, emulsifier brand Idera! VS 10, ANodozhii 5020 brand antifoam, Xa brand thickener, propylene glycol and biocidal agent.

The disadvantages of this composition include insufficient activity against a wide range of fungal diseases.

To strengthen the effectiveness and expand the spectrum of action, it is advisable to use a combination of various fungicidally active agents in one composition. Such combined use has a number of significant advantages, namely the expansion of the spectrum of action, increase in activity due to synergistic action, reduction of the content of active ingredients in the composition while maintaining activity, etc.

Therefore, the search and development of new combined compositions with improved activity is an urgent need for the development of modern means of protection of agricultural crops.

Myclobutanil and thiophanate-methyl can be mentioned among the potential and promising component agents for use in combined compositions.

Myclobutanil, which has the chemical name (2-(4-chlorophenyl)-2(1H-1,2,4-triazol-1-yl-methyl)hexanitrile), is characterized by the following structural formula:

SI not with

B

II and

What

M

Myclobutanil is offered on the Ukrainian market by AlfakhChemGroup under the trade mark "Camelot". Myclobutanil was first described in 1990 in patent 54920139.

Myclobutanil is a contact systemic fungicide with protective and therapeutic action. The active substance is quickly absorbed by plant tissues and spreads acropetally. Myclobutanil is well tolerated by plants. The mechanism of its action consists in suppressing the synthesis of ergosterol of fungi by myclobutanil. If the regulations of use of myclobutanil are observed, it does not have a phytotoxic effect. The drug can be used in a mixture with other fungicides and insecticides against a complex of diseases and pests. But long-term use of this drug causes a decrease in its effectiveness due to fungi becoming resistant to it.

Thiophanate-methyl, which has the chemical name (1,2-di-(3-methoxycarbonide-2-thiourido)-benzene, is characterized by the following structural formula.

Thiophanate-methyl was first described in patent O5 4048326 (priority 15.07.1971), the applicant

May & Baker Limited, (28). Thiophanate-methyl is an active substance of pesticides, contact systemic fungicides, effective against pathogens of spotting, powdery mildew, and scab. For example, thiophanate-methyl is offered in Ukraine under the trade name Topsyn.

To date, there is a need to expand the range of combined fungicides that show better activity than monopreparations due to synergistic action. The task of the useful model is to increase the effectiveness of fungicidal compositions containing several active ingredients to improve the control of pathogens of infectious diseases of agricultural crops, including powdery mildew, oidium, white rot, black rot, rust, alternariosis, septoriosis, macrosporiosis, gray rot , thanks to the development of a new complex fungicidal agent, which shows better effectiveness compared to monopreparations and ensures the fight against the pathogens of fungal diseases that have acquired resistance to known fungicidal agents. In particular, no information was found in the literature about the use of a fungicidal composition containing a combination of tebuconazole, myclobutanil and thiophanate-methyl, and therefore such a combination could be used as a combined fungicidal agent.

Accordingly, the task is solved by creating a fungicidal composition containing as an active ingredient tebuconazole and auxiliary agents, and which additionally contains myclobutanil and thiophanate-methyl.

At the same time, tebuconazole, myclobutanil, thiophanate-methyl and auxiliary agents are part of the fungicidal composition, in the following ratio of components, by weight. Fo: tebuconazole 5-20 myclobutanil 5-20 thiophanate-methyl 15-40 auxiliary agents the rest.

The combination of such active agents as tebuconazole, myclobutanil and thiophanate-methyl in one composition made it possible to create a fungicidal composition with high efficiency and a wide spectrum of action, which allows controlling a wide range of diseases and significantly

To increase the protection of cultivated plants, their emergence and growth.

In the preferred embodiment of the useful model, the fungicidal composition contains tebuconazole, myclobutanil, thiophanate-methyl and auxiliary agents, with the following ratio of components, by weight. for: tebuconazole 12.5 myclobutanil 12.5 thiophanate-methyl 25 auxiliary agents the rest.

The conducted research made it possible to choose the optimal composition of active agents, tebuconazole, myclobutanil and thiophanate-methyl, which show their activity most fully and safely for the surrounding environment, and the used auxiliary agents made it possible to form them into a suspension concentrate with excellent characteristics regarding storage and use.

As common auxiliary agents, the developed composition may contain emulsifiers), antifreeze(s), thickener(s), adjuvant(s), stabilizer(s), defoamer(s), preservative(s) and solvent(s).

In addition to the auxiliary agents mentioned above, for the purposes of obtaining suitable fungicidal compositions, other auxiliary agents can be used, such as surface-active substances, dispersants, wetting agents, solubilizers, substances that promote penetration, binding agents, thickeners, fillers, moisturizers, antifreezes, dyes, tackifiers, etc.

Suitable solvents are water and organic solvents, such as petroleum fractions with a medium to high boiling point, such as kerosene, diesel fuel; oils of vegetable or animal origin; aliphatic, cyclic and aromatic hydrocarbons, for example toluene, paraffin, tetrahydronaphthalene, alkylated naphthalene; alcohols, for example ethanol, propanol, butanol, benzyl alcohol, cyclohexanol; glycols; DMSO; ketones, for example, cyclohexanone; esters, for example, lactates, carbonates, fatty acid esters, gamma-butyrolactone; fatty acids; phosphonates; amines; amides, for example, M-methylpyrrolidone, dimethylamides of fatty acids; and their mixtures. The preferred solvent is water.

Suitable surfactants are surface-active compounds such as anionic, cationic, nonionic and amphoteric surfactants, block polymers, polyelectrolytes and mixtures thereof. Such surface-active substances can be used as an emulsifier, dispersant, solubilizer, wetting agent, substance that promotes penetration.

Suitable anionic surfactants are alkaline, alkaline earth, or ammonium salts of sulfonates, sulfates, phosphates, carboxylates, and mixtures thereof. Examples of sulfonates are alkylarylsulfonates, diphenylsulfonates, alpha-olefinsulfonates, ligninsulfonates, fatty acid and oil sulfonates, ethoxylated alkylphenols sulfonates, alkylated arylphenols sulfonates, condensed naphthalene sulfonates, dodecyl and tridecylbenzene sulfonates, naphthalene and alkylnaphthalene sulfonates, sulfosuccinates, or sulfosuccinates. Examples of sulfates are sulfates of fatty acids and oils, ethoxylated alkylphenols, alcohols, ethoxylated alcohols, or fatty acid esters. Examples of phosphates are phosphate esters. Examples of carboxylates are alkyl carboxylates and carboxylated alcohols or alkylphenol ethoxylates.

Particularly suitable anionic surfactants are E

Z alkylbenzenesulfonates, such as, for example, sodium, calcium or triethylammonium salts of alkylbenzenesulfonic acid. The most preferred alkylbenzenesulfonates are sodium, calcium, or triethylammonium salts of dodecylbenzenesulfonic acid, in particular Npodasa!yu 70/38 (7095 calcium dodecylbenzenesulfonate in n-butanol), NNodasa(yu 6b0/BE (60 95 calcium dodecylbenzenesulfonate in 2-ethylhexanol) and VNodasa(t) |yu 2283 (7095 ammonium dodecylbenzenesulfonate), NAPodia StrN, phenylsulfonate CA 100 (4095 calcium dodecylbenzenesulfonate in Seporo! X-060 and boiYimev5o 200) Siagapi StrN or

MapzaF EMM 70/2E (57 95 of linear dodecylbenzenesulfonate in 2-ethylhexanol) of AiYiBbhydni and MOP.

Suitable nonionic surfactants are alkoxylates, M-substituted fatty acid amides, amine oxides, esters, sugar-based surfactants, polymeric surfactants, and mixtures thereof. Examples of alkoxylates are compounds such as alcohols, alkylphenols, amines, amides, arylphenols, fatty acids or fatty acid esters. Ethylene oxide and/or propylene oxide can be used for alkylation, preferably ethylene oxide.

Examples of M-substituted fatty acid amides are fatty acid glucamides or fatty acid alkanolamides. Examples of esters are esters, glycerol esters or monoglycerides of fatty acids. Examples of sugar-based surfactants are sorbitan, ethoxylated sorbitans, sucrose and glucose esters or alkylpolyglycosides. Examples of polymeric surfactants are homo- or copolymers of vinylpyrrolidone, vinyl alcohol or vinyl acetate.

Suitable cationic surfactants are quaternary surfactants, such as quaternary ammonium compounds with one or two hydrophobic groups or salts of long-chain primary amines. Suitable amphoteric surfactants are alkyl betaines and imidazolines. Suitable polyelectrolytes are polyacids or polybases. Examples of polyacids are alkali salts of polyacrylic acid or polyacidic combined polymers. Examples of polybases are polyvinylamines or polyethyleneamines.

Preferred alcohol oxylates are monobranched alcohol ethoxylates such as

AiriizF MBA 11-7 (ethoxylate of a branched alcohol with 7 ethoxy chains) of Opideta or

Separator X-60 (alcohol ethoxylate with 6 ethoxy chains) of Siagapi company.

Suitable thickeners are polysaccharides (for example, xanthan gum, carboxymethyl cellulose), inorganic clays (organically modified or unmodified), polycarboxylates and silicates.

Suitable fillers are mineral and synthetic mineral compounds such as quartz, silica gel, silicates, talc, kaolin, limestone, carbon black, lime, chalk, lime clay, clay, dolomite, diatomite, calcium sulfate, magnesium sulfate, magnesium oxide, and products of plant origin, such as grain flour, tree bark flour, tree flour and nut shell flour, cellulose powders or other solid fillers.

Suitable antifreezes are ethylene glycol, propylene glycol, urea and glycerin.

Silicones, siloxanes, long-chain alcohols and salts of fatty acids are suitable defoamers.

Suitable dyes (eg red, blue or green) are pigments with low water solubility and water-soluble dyes. Examples are inorganic dyes (eg iron oxide, titanium oxide, iron hexacyanoferrate) and organic dyes (eg alizarin, azo and phthalocyanine dyes), etc.

Suitable tackifiers or binding agents are polyvinylpyrrolidones, polyvinyl acetates, polyvinyl alcohols, polyacrylates, biological or synthetic waxes, and cellulose ethers.

The choice of any auxiliary agent cannot be a limitation of this useful model.

The proposed fungicidal composition can be obtained in any suitable form, such as a solution, powder, suspension, dispersion, emulsion, paste, dust or granulate. Forms of application completely depend on the goals and objects of use. The form of the product is designed to ensure the best possible distribution of active substances. Aqueous forms can be made from emulsion concentrates, dispersions, pastes, or powder wettable by adding water.

It is preferable that the proposed fungicidal composition is used in the form of a suspension concentrate.

The proposed fungicidal composition is used for spraying crops during the growing season. The indicated composition in the form of a suspension concentrate is used with the norm

From consumption of 0.8-1.0 l/ha. In a preferred embodiment of the utility model, the developed fungicidal composition contains 125 g/l tebuconazole, 125 g/l myclobutanil and 250 g/l thiophanate-methyl, as well as conventional auxiliary agents.

A number of fungicidal compositions with different contents of active ingredients were obtained and studied, namely:

Composition 1

Tebucovazole.//////77770 |Funnciad.//////// 17777771 6001

Best innova SVY PS ZY: Preservative 1.5 and glycols

Composition 2

Composition by Z

Composition 4

Composition 3, which was used in large-scale field studies, showed the best characteristics during preliminary studies.

The suspension concentrate is prepared by the usual known methods of mixing using equipment that is widely used for mixing components and obtaining fungicidal compositions. For example, to obtain the developed composition in a suitable reactor mixed 12.5 wt. parts of myclobutanil, 12.5 wt. parts of tebuconazole, 25 wt. part of thiophanate-methyl, 1.2 wt. parts of an emulsifier, such as monobutyl ether of polypropylene oxide, 4 wt. part of the dispersant, such as polymeric surfactant, 0.05 wt. parts of defoamer, such as polydimethylsiloxane emulsion, 0.3 wt. parts of a thickener such as xanthan gum, 0.15 wt. parts of a preservative, such as a mixture of isothiazolinones, 4.35 wt. parts of antifreeze, such as propylene glycol, and water up to 100 wt. parts The resulting mixture was thoroughly mixed until a homogeneous liquid concentrate was obtained, which was packaged in a suitable container.

The developed composition is used in the form of an aqueous suspension obtained by dissolving the suspension concentrate in a suitable amount of water.

The following example of biological studies of a developed fungicidal composition is intended only to illustrate and explain the proposed utility model and is not intended to be limiting in any way.

Example 1

Experiments were conducted in field conditions at the experimental field of the Department of Agroecology and Biosafety

Institute of Agroecology and Nature Management of the National Academy of Sciences (Vinnytsia region, Khmilnytskyi district, village

White Sleeve). In the experiments, sunflower was used, the area of the plot was 25 m, the number of repetitions was 3.

Sowing date - 05/01/2018, seedling emergence date - 05/13/2018. Crops were treated by spraying crops during the growing season using a knapsack sprayer at a working fluid consumption of 300 l/ha (dates of treatment 06.06.2018 (phase 10-12 leaves) and 20.06.2018 (star phase) of the year). The claimed composition in the form of a suspension concentrate was used at consumption rates of 0.8 and 1.0 l/ha. The proposed fungicidal composition for the control of pathogens of sunflower diseases was also compared with the drugs "Impact K, KS" (suspension concentrate, carbendazim 250 g/luflutriafol 117.5 g/l) at the consumption rate of 1.0 l/ha, "Topsin-M 500, KS" (suspension concentrate, thiophanate-methyl 500 g/l) at consumption rates of 1.5 l/ha and "Folikur 250, EV" (emulsion in water, tebuconazole 250 g/l) at consumption rates of 1.0 l/ha The target objects were rust, gray rot, fomosis, alternaria, septoria. Records of diseases, sample selection and their analyzes were carried out in accordance with the Methodology of Testing and Application of Pesticides / edited by Prof. S.O.

Tribelia, Kyiv, "Svit" - 2001; Basics of scientific research in agronomy / Moiseichenko V.F.,

Yeschenko V.O. - K.: Higher school, 1994.-334 p.; Methodology of research in fodder production and animal feeding // A.O. Babich, M.F. Kulyk, P.S. Makarenko, I.F. Pidpaly,

Garkavy A.D., Petrychenko V.F., Borona V.P., Barvinchenko V.Yi. etc. - K.: Agrarian science, 1998. - 80 p.; Determination of biological effectiveness of pesticides and agrochemicals. Methodical instructions /

Chabanyuk Y.V., Sherstoboyeva O.V., Tkach Y.D., Bunas A.A., Starodub V.I., Dovhych K.I., Dmytruk

D.M. - K., 2013.-36 p.

The resulting data are presented in Tables 1 and 2, below.

Based on the conducted research, the effectiveness of using the developed fungicide with consumption rates of 0.8-1.0 l/ha to prevent the development of diseases (rust, gray rot, fomosis, alternaria, septoriosis) in sunflower crops was established. Use of the drug within the norms

0.8-1.0 l/ha showed positive results in sunflower crops (Table 1).

Thus, as a result of the conducted research, it was established that when using the drug with consumption rates of 0.8-1.0 l/ha, a positive effect was obtained in stopping the development of pathogens: the biological effectiveness, respectively, in relation to the development of rust was 91.5-98.4 or , the development of gray rot - 88.6-93.8 9o, the development of fomosis - 82.4-92.6 905, the development of alternariosis - 84.3-92.6 95 and the development of septoriosis - 85.9-95.6 95.

Table 1

Effectiveness of the fungicidal composition of the useful model on the 30th day after application against sunflower pathogens in 2018 (Bily Rukav village, Khmilnytskyi district, Vinnytsia region)

Dis- | Biolo- Biolo- Biolo- Sol- | Riolo- Biolo-

Option Developmental Developmental | Developmental Developmental | Turn! Noisy Poshi-|Development shire-| uvo- effect- wider-| the current effect is wider the current effect is wider uvo- effek- re-tok effect- ness, do, tive- ness, sickness iveness, ness, ill: tive- ness, do, tive- ness, ill: tive- o 92 |ness, 95 uv |by, 90 o / in | would, 96 that o o, that uv | would, 96 ness, 95 o o

Be and|tv| ore) Winter) imported poco (without 83.7 | 75.3 78.4 | 61.4 78.4 | 68.6 79.8 | 71.3 72.2 | 63.8 processing)

Standard

Impact K, l/ha)

Topsyn-M (1.5 l/ha)

Follikur v denunu ev |ne|yu| to | then you they ve that | per l/ha)

Continuation of table 1

Fungicide

COMPOSITION of the original model (0.8 l/ha)

Fungicide

COMPOSITION of the model (1.0 l/ha)

When using a fungicidal composition of a useful model with a consumption rate of 1.0 l/ha, better indicators were obtained, when compared with the reference drug Impact K, KS (1.0 l/ha).

The presented results testify to the high biological efficiency of the developed drug and compliance with the stated norms of its consumption of 0.8-1.0 l/ha.

The obtained yield level is an important indicator of oil crops. The use of the developed drug at rates of 0.8-1.0 l/ha had a positive effect on the preservation of seed productivity (Table 2).

Table 2

Yield of sunflower when using a fungicidal composition of a useful model in 2018 (Bily Rukav village, Khmilnytskyi district, Vinnytsia region) (Control (untreated) d | 270 | //-/ 1711111 (0.8 l/ha) (1.0 l /Ha)

As a result of the use of the fungicidal composition of this useful model with consumption rates of 0.8-1.0 l/ha, the seed yield increased by 16.5-22.2 95, respectively, compared to the control variant.

The studied drug with a consumption rate of 1.0 l/ha was superior to the reference product Impact K,

CS (1.0 l/ha) according to the level of productivity by 10.39 Ob.

Thus, the use of the proposed fungicidal composition with consumption rates of 0.8-1.0 l/ha, based on the active substances of tebuconazole, myclobutanil and thiophanate-methyl, on oil crops (sunflower) helps to reduce disease damage (rust, gray rot, fomosis , alternaria, septoriosis) and increasing crop productivity.

With 2-fold spraying of sunflower crops during the growing season with the proposed fungicide, it was established that it effectively affects productivity, giving an increase of 16.5-22.2 95, while the use of the reference drug Impact K, KS gave an increase of 11.8 95, compared to the control variant.

The obtained results of field studies give reason to recommend the developed fungicide against pathogens of a wide range of diseases (rust, gray rot, fomosis, alternaria, septoriosis) on oil crops (sunflower) with consumption rates of 0.8-1.0 l/ha. The use of the proposed fungicide is not limited to sunflower and it can be used in the treatment of other cultivated plants.

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Claims (3)

USEFUL MODEL FORMULA 1. A fungicidal composition containing as an active ingredient tebuconazole and auxiliary agents, which is distinguished by the fact that it additionally contains as an active ingredient myclobutanil and thiophanate-methyl. 2. Fungicidal composition according to claim 1, which differs in that it contains tebuconazole, myclobutanil, thiophanate-methyl and auxiliary agents, with the following ratio of components, wt. 9o: tebuconazole 5-20 myclobutanil 5-20 thiophanate-methyl 15-40 auxiliary agents the rest. 3. Fungicidal composition according to claim 1, which differs in that it contains tebuconazole, myclobutanil, thiophanate-methyl and auxiliary agents, with the following ratio of components, wt. 9o: tebuconazole 12.5 myclobutanil 12.5 thiophanate-methyl 25 auxiliary agents the rest.