CS276235B6 - fungicidal agent - Google Patents

Abstract

Fluid fungicidal compsns. contain, by wt., (a) 20-40% iprodione (I; 1-isopropylcarbamoyl- 3-(3,5-dichlorophenyl)hydantoin) as active component; (b) an oil-in-water emulsion contg. 50-160%, on (I), of an oil with HLB 8-12, pref. 10-11; (c) 0.1-2% ethoxy-lated fatty alcohol or nonionic emulsifier and (d) opt. 0.5-2.5% neutral, hydrophilic silica. Pref. the oil can dissolved 1-5g (I) per l at room temp. and may be a mineral or vegetable oil; esp. it has viscosity 20-30 cSt. The most pref. emulsifier is derived from 13C alcohols condensed with 9-10 moles ethylene oxide and the silica is esp. hydrated pptd. silica of BET surface 200-300 sq. m. per g. - (I) is esp. useful for controlling Botrytis Cinerea, particularly on vines. These formations are more effective than conventional wettable powders and are easier to handle (no formation of dust) and are less easily washed off by rain.

Description

(57)

A fungicidal composition useful in agriculture based on iprodione and carbendazim, characterized in that it consists of

(a) 20 to 40% iprodione and carbendazim;

(b) oil-in-water emulsion 'containing 50 to 160% by weight, based on iprodione and carbendazim, of oils having a hydrophilic-lipophilic balance of 8 to 12 in the hydrophilic-lipophilic balance scale for the preparation of an oil-in-water emulsion,

c) 0.1 to 2% nonionic emulsifiers of the condensate type of one or more C 12 -C 14 fatty alcohols with 8 to 12 moles of ethylene oxide,

d) optionally 0.5 to 2.5% substantially neutral hydrophilic silica.

to o

CS 275 235 B5 j

The invention relates to a novel fungicidal composition based on iprodione.

Iprodione is a well known name for a fungicide useful in agriculture whose chemical name is 1-isopropylcarbamoyl-3- (3,5-dichlorophenyl) -hydantoin. This fungicide is an excellent activity against plant fungal diseases, especially against gray mold in grapevines.

Until now, this active ingredient has been marketed mainly in the form of a wettable powder. This treatment has the disadvantages of: in that dust is dispersed in the atmosphere during processing, both when dispensed into bags and when the wettable powder is diluted with water during the preparation of the suspension. Further, the formulation may be washed off the surface of the leaves or seeds under heavy rain.

The purpose of the invention is to overcome these disadvantages. The invention relates to a fungicidal composition based on iprodione and carbendazim, characterized in that it consists

(a) 20 to 40% iprodione and carbendazim;

b) an oil-in-water emulsion containing 50 to 160% by weight based on iprodione and carbendazim, an oil having a hydrophilic-lipophilic balance (HLB) of 8 to 12, preferably 10 to 11, on a hydrophilic-lipophilic balance scale for preparation oil-in-water emulsion ”,

c) 0.1 to 2% of a nonionic emulsifier of the condensate type of one or more C 12 -C 14 fatty alcohols with 8 to 12 moles of ethylene oxide,

d) optionally 0.5 to 2.5% substantially neutral hydrophilic silica, and the remainder to 100% comprises water and optional ingredients.

The composition of the invention is a concentrated suspension of iprodione and carbendazim in an oil-in-water emulsion. These liquid formulations are often referred to in practice as fluid pastes, creams or liquid formulations.

In these compositions, the active ingredient is based on iprodione and carbendazim in the form of solid particles having an average size of less than 10 microns and preferably an average size of from 1 to 5 microns.

Other compositions containing iprodione in admixture with other fungicides may also be formulated according to the invention.

The oil that can be used in the compositions of the invention can be of various types if dissolved. from 1 to 5 g iprodione per liter of oil at ambient temperature and if its hydrophilic-lipophilic balance (HLB) has a value of 8 to 12, preferably 10 to 11, in the HLB scale required for the preparation of an oil-in-water emulsion. it preferably ranges from 2 x 10 ^-5 to 3 x 10 -5 m 2 / s.

The hydrophilic-lipophilic equilibrium is defined and determined according to Pesticide formulatian Wade Van Valenburg by Marcel Dokker Inc., New York 1973.

These oils may be mineral oils, such as purified kerosene oils, commonly referred to as white oils having a boiling point between 300 and 400 ° C at atmospheric pressure, the main part of which consists of paraffinic hydrocarbons, preferably those where at least 92% of the substances cannot be sulfonated. Certain vegetable oils which exhibit hydrophilic-lipophilic equilibrium within the above range may also be used, such as peanut oil, corn loop oil or rapeseed oil.

Another important component of the composition of the invention is an ethylene oxide condensate type fatty acid emulsifier which is a condensate of one or more straight or branched chain fatty alcohols having from 12 to 14 carbon atoms, preferably 13 carbon atoms, from 8 to 12 moles, preferably 9 to 12 moles. 10 moles of ethylene oxide which stabilizes the concentrated suspensions of iprodione in an oil-in-water emulsion and as a dispersion wetting agent for iprodione and carbendazim, as well as an emulsifier for the binary oil-water system.

In certain cases, if it is desired to reduce the amount of oil »»

While possible phytotoxicity without impairing the biological properties of the composition, it may be advantageous to add 0.5 to 2.5% by weight, preferably substantially neutral hydrophilic silica, of the composition. For the purposes of the present invention, the term hydrophilic silica is preferably a synthetic silica, such as an ultrafine hydrated precipitated silica with a high specific surface area in the range of 200 to 200.

300 m / g, measured by B.E.T. method. Silica of this type is substantially neutral, i.e. its pH in an aqueous suspension of 7 + 0.5. In practice, neutral or weakly acidic silica is preferred.

The compositions of the invention may also contain conventional additives such as viscosity modifiers (generally from 0.05 to 0.1% by weight) of the polysaccharide type, in particular heteropolysaccharides resulting from the fermentation of saccharides by xanthomonas microorganisms, dispersing fluidizing agents of the ethylene oxide / polyarylphenol condensate type. , preferably in the form of acid phosphate (generally from 0.5 to 2.5% by weight), antifreeze agents such as ethylene glycol or propylene glycol (generally from 5 to 10% by weight), antifoaming agents such as silicone oil emulsions (generally from 0.2 to 0.6% by weight) and preservatives against microbial growth (generally from 0.1 to 0.2% by weight) such as formaldehyde.

The compositions of the invention can be prepared, for example, in three stages.

The first step consists in preparing an oil-in-water emulsion in a tank equipped with intensive stirring by pouring oil into water containing other water-soluble additives and optionally an emulsifier.

In the second step, iprodione and carbendazim as a fine powder are dispersed in an oil emulsion with continued stirring. The suspension obtained is then refined in a mill, for example in a ball mill of the type DYNO-MILL.

In a third final step, a Hetoropolysaccharide type viscosity modifier and / or neutral hydrophilic silica is dispersed in a small amount of water containing a preservative (40% aqueous formaldehyde solution). This dispersion is added to the iprodione and carbendazim suspension described above.

In addition to being liquid and easier to handle than wettable powders, the compositions of the present invention have the added benefit of enhancing fungicidal efficacy when applied as a spray to control fungal diseases in plants (grapevine). vines, salads, tomatoes, strawberries, trees with small fruit, etc.) and especially when used against Botrytis cinerea without being phytotoxic.

The following examples illustrate the invention without limiting it in any way, and further illustrate its biological properties.

Example 1

A concentrated oil suspension is prepared having the following composition in weight percent and in which iprodione is mixed with carbendazim iprodione 10.0 carbendazim 9.5. paraffinic mineral oil containing more than 70% paraffin with a hydrophilic-lipophilic balance value of 10,5 and dissolving 1 g of iprodione per liter. 20,0 emulsifier based on 9 to 10 moles of ethylene oxide with synthetic C13 alcohols 0.8 ethylene oxide condensate phosphate polystyrene phenol 2.5 ethylene oxide polyalkylphenol condensate 0.5

CS 27G 235 BG ethylonglycol 5,0 heteropolysaccharide (Rhodopol 23) 1,3 formaldehyde (40? S aqueous solution) 3,0 water to 100,0.

First, water, glycol, and surfactants, including an emulsifier, are mixed in the tank. The mixture is stirred until a complete dispersion is formed which is then poured into the mixture.

With continued stirring, iprodione and carbendazim are added. An emulsion is obtained which is ground in a DYNO-MILL mill to obtain a concentrated suspension of iprodione and carbendazim.

In the third and final stages, a viscosity modifier (heteropolysaccharide), previously dispersed in a small amount of water containing a preservative (40% formaldehyde solution), is added to the iprodione and carbendazim suspension to give a ready-to-use fluid paste or concentrated dispersion.

Example 2

Following the procedure of Example 1, prepare! % by weight iprodione carbendazim propylene glycol oxethylated arylphenonol phosphate oxethylated alkylphenol oxethylated fatty alcohol paraffinic mineral oil - see Example 1 heteropolysaccharide formol water oil suspension having the following composition.

0.5

0.5

0.8

0.13

0.3 to 100.

Example 3

Field fungicide tests on gray mold (Botrytis cinerea) on vines.

These tests were carried out on vineyard areas of 50 m by applying the same doses per hectare of commercial wettable powder containing 50% by weight for comparative purposes. iprodione and the composition of Example 1. The treatment was performed according to the following program:

First treatment i

At a time when the petals are dropping to clean the dehydrated flower parts that can remain attached to the seeds and protect the stalk.

Second treatment:

Before the grapes become stronger, that is, as long as it is still possible to achieve stalk by spraying, in order to protect it against fungal attack.

Third treatment:

Once the ripening begins, that is, since the fruit becomes susceptible to attack by botrytis, which causes a gray mold in the grapevine.

CS 276 235 B5

Fourth treatment:

About three weeks before vintage to ensure harvesting in a healthy state, at a time when physiological and climatic conditions are often very beneficial for mold development.

These treatments are carried out by pneumatic spraying at a low volume per hectare, i.e. from 100 to 300 liters per hectare, the spraying being directed to the grapes (topical application) and at a rate of 750 g active per hectare per treatment.

Of course, the same areas are left noosothy and serve as control.

At harvest, the amount of mold in the fruit is compared to the contaminated and untreated grapevine control.

Under these conditions, it was found that areas of untreated control vines were attacked with a degree of 41% and the iprodione commercial formulation as 50% wettable powder had an average effect or protection of 34% while the composition of Example 1 applied at the same dose of active ingredient mixture per hectare. has a protective effect Sl%,

Furthermore, the composition of Example 1 is completely selective for grapevines.

Example 4

Field fungicide tests for gray mold (Botrytis cinerea) in beans.

These tests shall be carried out on 5 m planted beans, applying for the same purposes the same dose per hectare of commercial wettable powder containing 50% by weight. Iprodion and composition according to Example 1. Application is carried out according to the following program, each treatment being carried out with a small volume pneumatic spraying per hectare (from 100 to 300 liters per hectare) at a rate of 750 g / ha.

First treatment: at the beginning of flowering,

Second treatment: at the end of flowering.

Some areas are left untreated and serve as controls.

Contamination occurs naturally.

Under these conditions, it was found at harvest that the control areas were attacked by 27%, the fruits treated with iprodione in the form of a wettable powder were attacked by about 15% and the fruits treated with iprodione and carbendazim formulated according to the invention were attacked only 2,4%.

Example 5

Rain resistance test.

Eurocross 8 tomatoes, 15 cm high, are sprayed with either iprodione in the form of 50% by weight. of a wettable commercial powder or iprodione and carbendazim formulated according to Example 1. Both formulations are applied at the same dose of 375 g of active ingredient per 1000 liters. Leave to leave. Several plants are then exposed to varying degrees of artificial rain induced by the rain simulating apparatus. Leaf samples are taken from each type of rain and eyelets with buffered mycelium of Botrytis cinerea and then allowed to incubate for 4 days at 20 ° C in an illuminated humidity saturated atmosphere. The disease is then monitored.

Under these conditions,

a) when watering 5 mm of rain, the controls are completely contaminated,

(b) at 5 mm of rain, samples treated with iprodione in the form of a wettable powder are attacked at 5G% compared to 3S% for samples treated with iprodione and carbendazim formulated according to the invention; and

EN 27G 235 EC

c) at a fairly 10 mm, samples treated with iprodione in the form of a wettable powder are attacked by 87 compared to only 31% for the samples treated with iprodin and carbendazim formulated according to the invention.

The examples clearly show a clear and surprising improvement in the efficacy of iprodione and carbendazim when using the composition of the invention.

Claims (4)

PATENT CLAIMS A fungicidal composition useful in agriculture based on iprodione and carbendazim, characterized in that it consists of (a) 20 to 40% iprodione and carbendazim; (b) an oil-in-water emulsion containing 50 to 150% by weight, based on iprodione and carbendazim, of oils having a hydrophilic-lipophilic balance of 8 to 12 on a hydrophilic-lipophilic balance scale for the preparation of an oil-in-water emulsion; c) 0.1 to 20% of a non-ionic condensate emulsifier of one or more C12 -C14 partial alcohols with 8-12 moles of ethylene oxide; d) optionally 0.5 to 2.5% substantially neutral hydrophilic silica. 2. The fungicidal composition of claim 1, wherein the oil is an oil having a hydrophilic-lipophilic balance of from 10 to 11. 3. A fungicidal composition as claimed in claim 1, wherein the oil contains an oil which dissolves 1 to 5 g of iprodione per liter. 4. Fungicidal oil. means by points 1 to 3 marked that as oil contains mineral 5. Fungicidal means according to points 1 to 3 marked that as oil contains plant- oil. 0. Fungicidal means according to point 1, that like emulsifier contains condensate a synthetic alcohol having 13 carbon atoms with 9 to 10 moles of ethylene oxide. 7. A fungicidal composition according to any one of claims 1 to 6, wherein the silica comprises hydrated precipitated silica having a B.E.T. specific surface area from 200 to 300 m @ 2 / g.