NL8100829A - HERBICIDE PREPARATION AND METHOD. - Google Patents

Description

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Herbicide preparation and method.

The invention relates to a herbicidal composition and more particularly to a herbicidal composition comprising a thiocarbamate derivative and a triazine derivative in combination as active ingredients, and to herbicidal methods using the preparation.

In recent years, many herbicides have been developed and brought to practical applications, leading to labor savings in agricultural work.

10 Since several problems in the effectiveness and safety of the herbicidal chemicals have arisen in their practical applications, the emergence of even better herbicides is urgently desired. The associated technique strongly requires highly safe herbicides which do not attack beneficial crops, which act effectively against noxious weeds at a low application rate and which do not cause environmental pollution.

The object of the invention is to provide a herbicidal composition and methods which can be adapted to such requirements,

As a first aspect, the invention provides a herbicidal composition comprising a thiocarbamate derivative of the general formula 1 of the formula sheet, wherein one of the symbols X and Y represents a hydrogen atom and the other a chlorine atom and 4-amino-3-methyl 6-phenyl-1,2,4-triazine-5 (4H) -one. of the formula 2 of the formula sheet, as active ingredients.

The compounds of formula I to be used in the composition of the invention are known as an effective herbicide for killing a variety of annually occurring grassy weeds such as Echinochloa spp., Digitaria spp., Setaria spp. and Poa annua spp. and annually occurring Cyperus spp., and they are useful for weeding between such crops as rice, corn, soybeans and beet plants.

8100829 35 - 2 -

The compound of Formula 2 is also known as a herbicide for killing annually occurring broad-leaf weeds such as Polygonum spp., Chenopodium album, Amaranthus albus and Stellaria media 5 by treatments of such high safety during their growth period that it practically does not affect certain crop plants, in particular beets.

However, each of the compounds of formulas 1 and 2 is not always effective as a fully selective herbicide when used in a small amount or at a low concentration to kill weeds grown on beet farms. Therefore, the compounds of formula 1 have excellent herbicidal activity against grassy weeds by hatching them without affecting the beet crops, but they are insufficient in a small amount or in a low concentration for complete killing. of broad-leaved weeds and grassy weeds by application after hatching. On the other hand, the compound of formula 2 exhibits excellent herbicidal activity against broadleaf weeds by hatching application with high selectivity so that it practically does not attack beet crops, but is ineffective against broadleaf weeds and grassy weeds when hatched.

The latter compound is also insufficient in its herbicidal activity when it rains shortly after application or against old broadleaf weeds.

The combination of two compounds of formulas 1 and 2 according to the invention makes it possible to kill broadleaf weeds, grassy weeds after hatching and old broadleaf weeds, which would be impossible with a single compound application. Therefore, the composition of the invention exhibits significant herbicidal activity against a wide variety of unwanted weeds, including annual grassy weeds and broadleaf weeds throughout the growth period when applied before and after hatching in a small amount and at a low 81 0 08 2 0 3 concentration. Furthermore, the preparation according to the invention is resistant to rain after application, so that a stable herbicidal activity continues. The high stability under varying conditions, the high activity in particular against old broadleaf weeds and the immediate effect of the preparation according to the invention are considered to result from the ease with which the compound of formula 2 is absorbed into the body of the weeds using the compound of formula 1.

In fact, the invention is based on the discovery that the combination of the compounds of formulas 1 and 2 not only replenishes the deficiencies of applying each individual compound as mentioned above, but also produces a surprisingly high synergistic effect in such a way that the preparation according to the invention is capable of simultaneously killing both grassy and broadleaf weeds, which grow on beet farms, and exhibits a high herbicidal activity over the entire growth period of weeds when applied before and after hatching. It has also been found that the composition of the invention can be applied effectively not only to the weeds of beet farms, but also to those of spinach, barley, wheat and corn farms.

Furthermore, therefore, an aspect of the invention is to provide a method for inhibiting weed growth in beet, spinach, barley, wheat and corn crops, whereby the area of the crop is grown before or after the hatching of the crop , applies a composition comprising a compound of formula 1 and a compound of formula 2 as active ingredients in an amount sufficient to inhibit weed growth but insufficient to significantly damage crop plants. When applied before hatching, the preparation can be applied to the soil in which the seeds of the grass plants have been sown, preferably by spraying. When applied after hatching, the preparation is usually 81 0 08 2 9 applied to stems and leaves of the plants, preferably by spraying.

Examples of the compounds of formula 1 used in the composition of the invention are as follows:

Connection A

S- (p-chlorobenzyl) -Ν, Ν-diethylthiocarbamate, see formula 3 of the formula sheet;

Connection B

S- (o-chlorobenzyl) -Ν, Ν-diethylthiocarbamate, see formula 4 of the formula sheet.

The synergistic effect of the herbicidal composition of the invention has particular significance at certain specific ratios of the compound of Formula 1 and a compound of Formula 2, but the ratio of the two compounds to be included can vary over a relatively wide range. In general, it is desirable to have 0.05-10 parts by weight, more preferably 0.125-4 parts by weight, and most preferably 0.25-2 parts by weight of the compound of formula 2 (hereinafter referred to as compound C) per part by weight of the compound of formula 1.

The herbicidal composition according to the invention can be prepared in any form of preparation, which typically contains 0.5-80% by weight of the active ingredients, such as wettable powders or granules, emulsions, powders, granules, granules, flowable suspensions and the like.

When preparing the herbicidal composition according to the invention, the active ingredients are mixed with a diluent or carrier. Suitable solid diluents or carriers include, for example, talc, bentonite, clay, kaolin, diatomaceous earth, white carbon, vermiculite, slaked lime, siliceous sand, calcium carbonate, dolomite, powdered magnesium oxide, Fuller's earth, ammonium sulfate and urea. Suitable liquid diluents or carriers include, for example, alcohols, dioxane, acetone, cyclohexane, methyl naphthalene, dimethylformamide and acetonitrile.

5

Surfactants which can be used as an emulsifying, dispersing or suspending agent in the composition of the invention may be of the cationic, anionic or nonionic type. Suitable agents of the cationic type include, for example, quaternary ammonium compounds such as cetyl trimethyl ammonium bromide. Suitable agents of the anionic type include, for example, soaps, salts of aliphatic monoesters of sulfuric acid such as sodium lauryl sulfate, and salts of sulfonated aromatic compounds such as dodecylbenzene sulfonate, sodium, calcium or ammonium lignosulfonate, and butylnaphthalene sulfonate. Suitable non-ionic agents include, for example, the condensation products of ethylene oxide with fatty alcohols such as oleyl alcohol and cetyl alcohol, or with alkyl phenols such as octylphenol, nonylphenol, and octylcresol, the partial esters derived from long chain fatty acids and hexitol anhydrides such as sorbitol monolaurate and the condensation product of the partial esters with ethylene oxide such as polyoxyethylene sorbitan monolaurate. Various other additives conventionally used in formulating herbicidal preparations such as carboxymethyl cellulose and acacia gum can also be used.

The dose of the active ingredients of the preparation according to the invention depends on the weather conditions, soil conditions, form of preparation, season of application, method of application, the type of crop plants, the type of weeds and the growth stage of weeds and it is usually in a range of 0.5-30 kg, preferably 2-12 kg and especially 5-8 kg per hectare in the soil treatment or the leaf treatment. The formulation is usually applied at a concentration of 500-30000 ppm, preferably 2000-20000 ppm and especially 5000-10000 ppm of the active ingredients. In the case of application of the herbicide preparation by spraying from an airplane, the concentration of the active ingredient 81 008 2 9 6 parts is usually in the range of 10000-75000 ppm. For example, 0.5-1.5 kg of the active ingredients are sprayed in a ratio of 20-50 l / ha.

Upon application, the herbicidal composition of the present invention is applied in undiluted form or diluted with water to the soil or stems and leaves of plants as mentioned above. It is also possible to add other herbicidal chemicals to the herbicidal composition of the invention in order to significantly enhance its herbicidal activity.

Preferred Embodiments of the Invention.

The present invention will be further elucidated more particularly by means of the following formulation embodiments and examples, but the invention is not intended to be limited thereto. Therefore, if desired, ratios of respective incorporated components and types of carriers can be varied. Unless otherwise indicated, everything is shown in parts by weight, weight percentages, weight ratios and the like.

(a) Emulsifiable concentrate: 5-80% by weight, preferably 10-70% by weight and most preferably 15-30% by weight of the active ingredients, wherein the weight ratio of the compounds of the formula 1 and 2 is 1: 0.05-10, is dissolved in 5-90% by weight, preferably 30-60% by weight, of a liquid carrier, to which 1-40% by weight, preferably 5-20% by weight. % of an emulsifying agent is added.

(B) wettable powder: 5-80 wt.%, Preferably 20-50 wt.% Of active ingredients, the weight ratio of the compounds of formula 1 and 2 being 1: 0.05-10, 1- 20 wt%, preferably 5-10 wt%, of a surfactant 35, and 5-85 wt%, preferably 40-70 wt%, of a solid support are granulated and well mixed.

(c) Substance: 0.5-10 wt%, preferably 1-5 wt% of the active ingredients, in which the weight ratio of compounds

7 of formulas 1 and 2 is 1: 0.05-10, is granulated and mixed well with 90-99.5 wt%, preferably 95-99 wt%, of a solid support.

(d) Granules: 0.5-40 wt%, preferably 2-10 wt% of the active ingredients, in which the weight ratio of the compounds of formula I and 2 is 1: 0.05-10 granulated and mixed well with 60-99.5 wt%, preferably 90-98 wt% of a solid support and the mixture is kneaded with the addition of water, granulated and dried to obtain granules.

Example I,

Wettable powder.

A wettable powder is prepared by homogeneously mixing and grinding 30 parts by weight of compound A, 20 parts by weight of compound C, 2 parts of sodium alkylbenzenesulfonate, 3 parts of polyvinyl alcohol, 20 parts of white cages, 25 parts of fine powdered clay.

Example II.

Wettable powder.

A wettable powder is prepared by 40 wt. parts of a compound B, 20 parts by weight of compound C, 2 parts by weight of sodium alkylbenzene sulfonate, 3 parts by weight. homogeneously mix and grind parts of polyvinyl alcohol, 20 parts by weight of white coal and 15 parts by weight of diatomaceous earth.

Example III.

Wettable powder.

A wettable powder is prepared by 30 parts by weight of compound A, 10 parts by weight of compound C, 2 parts by weight sodium alkylbenzene sulfonate, 3 parts by weight. parts of polyvinyl alcohol, 20 parts of white cages, 35 parts of fine powdered clay to be homogeneously mixed and ground.

Example IV.

Wettable powder.

A wettable powder is prepared by making 40 parts by weight of compound B, 10 parts by weight of compound C, 2 parts by weight of sodium alkyl benzene sulfonate, 3 parts by weight.

8100829 8 parts of polyvinyl alcohol, 20 parts by weight of white ball and 25 parts by weight of fine powdered clay to be homogeneously mixed and ground.

Example V.

Wettable powder.

A wettable powder is prepared by 30 parts by weight of compound A, 30 parts by weight of compound C, 2 parts by weight of sodium alkyl benzene sulfonate, 3 parts by weight of polyvinyl alcohol, 20 parts by weight of white coal and 15 parts by weight. parts homogeneously mix and grind diatomaceous earth.

Example VI.

Wettable powder.

A wettable powder is prepared by 50 parts by weight of compound A, 2.5 parts by weight of compound C, 3 parts by weight of polyoxyethylene alkylaryl ether, 3 parts by weight of calcium lignosulfate. Homogeneously mix and grind 30 parts by weight of white cabbage and 11.5 parts by weight of finely powdered clay.

Example VII.

Wettable powder.

A wettable powder is prepared by 5 parts by weight of compound B, 50 parts by weight of compound C, 2 parts by weight of sodium alkyl benzene sulfonate, 3 parts by weight. parts of calcium lignosulfonate, 10 parts by weight of diatomaceous earth and 30 parts by weight of finely powdered clay are homogeneously mixed and ground.

Example VIII.

Emulsion.

An emulsion is prepared by homogeneously mixing 10 parts by weight of compound A, 20 parts by weight of compound C, 6 parts by weight of polyoxyethylene alkyl aryl ether, 4 parts by weight of sodium alkyl aryl sulfonate and 60 parts by weight of dimethylformamide.

Example IX.

Emulsion.

An emulsion is prepared by homogeneously mixing 30 parts by weight of compound B, 5 parts by weight of compound C, 4 parts by weight of sodium alkylarylsulphonate, 6 parts by weight of polyoxyethylene 81 0 08 2 9 9 leen alkylaryl ether and 55 parts by weight of dimethyl sulfoxide. .

Example X.

Granules.

A preparation in the form of granules is prepared by homogeneously mixing and grinding 5 parts by weight of compound Ά, 5 parts by weight of compound C, 2 parts by weight of polyvinyl alcohol, 15 parts by weight of diatomaceous earth and 73 parts by weight of clay, knead the ground mixture with the addition of water, granulate the mixture and dry the resulting granules.

Example XI.

Granules.

A granular formulation is prepared by dissolving 10 parts by weight of compound A and 0.5 parts by weight of compound C in 3 parts by weight of dimethylformamide and spraying 86.5 parts by weight of diatomaceous earth in the form of granules with the resulting solution.

Example XII.

Granules.

A preparation in the form of granules is prepared by homogeneous 1 part by weight of compound B, 10 parts by weight of compound C, 1 part by weight sodium alkylbenzenesulfonate, 5 parts by weight of white coal, 50 parts by weight of bentonite and 30 parts by weight of talc. to mix and grind, knead the ground mixture, granulate the mixture and dry the resulting granules.

Example XIII.

Powder.

A powder preparation is prepared by homogeneously mixing and grinding 3 parts by weight of compound B, 1 part by weight of compound C, 0.5 parts by weight of white cabbage and 95.5 parts by weight of clay.

Example XIV.

Powder.

A powder preparation is prepared by homogeneously mixing and mixing 8 parts by weight of compound A, 0.5 parts by weight of compound C, 15 parts by weight of diatomaceous earth, 50 parts by weight of clay and 26.5 8100829 10 parts by weight of talc. grind.

Example XV.

Powder.

A powder preparation was prepared by adding 0.5 parts by weight of compound B, 5 parts by weight of compound C, 2 parts by weight. parts of white cages to homogeneously mix and grind 94.5 parts by weight of clay.

The following examples (tests) were performed to demonstrate the excellent herbicidal activity of the composition of the invention. In each test, it is proposed that the use of a single compound does not provide sufficient herbicidal activity, but the combined use of those compounds of the invention shows a higher herbicidal activity than the single sum of the activities of respective compounds over a wide range of weeds.

Example XVI.

This example illustrates the herbicidal activity on a variety of unwanted weeds and the beet phytotoxicity of compositions of the invention by hatching treatment. Thirty (30) seeds each of the beet (Beta vulgaris), coot (Echinochloa crusgalli), annual blue grass (Poa annua), 25 water pepper (Polygonum lapathifolium), and goose leg (Chenopodium albus var. Centrorubrum Makino) were sown in soil of a farm, which ground contained polyethylene holders in every 2000 cm. After covering the seeds with soil, each of the wettable powders prepared in Examples I and III in the water-diluted form to obtain concentrations of active compounds shown in Table A were spread evenly on the earth with an application ratio equivalent to 35 500 / ha. After 25 days from the time of spraying, the fresh weight of the tested plants was measured, from which the growth impediment (%) was calculated as follows: 11 fresh weight of the plant grown on the treated

Stunted growth (%) = (1 - place--) fresh weight of the plant 5 grown in the untreated place X 100 ...................

The results obtained are shown in Table A. By way of comparison, similar tests were performed in which each compound used in the above preparation was used separately under the same conditions as mentioned above and the results are also shown in Table A.

Table A.

8100829 _ 12 _ -Ρ φ • Η Λ Φ Φ Ρ 0 0> -Ρ • γΗ φ -Ρ • (Η υ «Ή Ü X φ 0 Β 4J 0 0 4-1 4J> 1 • Η φ C 44 φ Φ Ό • rH Ρ 0 0 G 0 ε>> j G - · Μ C λ: • Η ρ I- (Γ 'ο φ 0 φ Ό _Ρ • Η 0 υ ο • rl _Λ Ρ "ρ c ο 0 <.Ί r3 <C-ι

Iϋ ύ ί 100 100 100 - 13 -

Example XVII.

This example illustrates the herbicidal activities on various unwanted weeds and the phytotoxicity for beet of preparations according to the invention by post-hatching treatment. Beets (1.5-2 leaf stage) in every 2000 cm polyethylene containers, filled with agricultural soil, coot (2-2.5 leaf stage), annual blue-grass (1.5-2 leaf stage), water pepper (1-2 leaf stage) and goose leg (1.5-2 leaf stage) were grown up to a degree of progression as indicated in parentheses above, respectively. of the growing plants with an application ratio of 500 l / ha. 20 days after spraying, the fresh weight of the tested plants was measured, from which the growth inhibition (%) was calculated according to the formula 3. The 20 r results are shown in table B.

8 1 0 08 2 9

Table B.

_] 4 _ -P P <U <D • H O ü M Cr> O) TABLE B. Herbicidal activity and phytotoxicitext for cl · by treatment on stems and leaves in the e • H Ti Ci JJ in 15¾. t c • H 1 s i—! 0 n 8 ö Goose leg 10 1—1 σ \ LO o - = r O 0 1 1 93 o 0 1 1 vo σν Water pepper ΓΟ 1-1 16 vo in C \ J co co cr \ VO oo oo 1—1 in co Annual bluqras o 0- 70 • = r 1—1 CTx oo 1—1 100 100 100 P oco as co c— 75 co - = rooi—! vo cr \ oo 1—1 95 Beet o O oo O ooo Application i ngs ratio (kg / na) 'CT C \ JH oj = r H -a- c \ j -t4' i— (o> 0 Ή Ή • -λ -a> <, up to + o 't + om + om + t 8 1 0 0 8 2 9 15

Example XVIII,

This example illustrates the herbicidal activities on yellow needle (Setaria viridis Beauv.) And amaranth (Amaranthus albus) of preparations according to the invention. 5 by pre-hatching and post-hatching treatments.

Seeds of the test species were placed on the surface of 2 2000 cm soil of polyethylene containers and covered with 0.5 cm thick soil. Each of the wettable powders prepared in Examples V and IV were diluted with water to give the concentration of active compounds shown in Table C and were sprayed to soil in hatching tests and on the stems and stems. leaves of the growing plants in the tests after hatching in an application ratio of 500 l / ha. 20 days after spraying on, the fresh weight of the tested plant was measured, from which growth inhibition (%) was calculated in accordance with formula 3. The results are shown in Table C.

20 0 08 2 9

Table C.

-16 - TABLE C. Herbicidal efficacy through treatment at different growth stages.

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Claims (9)

1. Herbicidal composition, characterized by a thiocarbamate derivative of the general formula 1 of the formula sheet, wherein one of the symbols X and Y represents a hydrogen atom and the other is a chlorine atom, and 4-amino-3-methyl-6-phenyl- 1,2,4-triazine-5 (4H) -one of the formula 2 of the formula sheet as active ingredients. Herbicidal composition according to claim 1, characterized in that the active ingredients are included in a concentration of 0.5-80% by weight. * Herbicidal composition according to claim 1, characterized in that the weight ratio of the compound of the formula 1 and the compound of the formula 2 is 10.05 to 1:10. Herbicidal composition according to claim 3, characterized in that the weight ratio is 1: 0.125 to 1: 4. Herbicidal composition according to claim 1, characterized in that the compound of formula 1 is S- (p-chlorobenzyl) -Ν, Ν-diethylthiocarbamate. Herbicidal composition according to claim 1, characterized in that the compound of formula 1 is S- (o-chlorobenzyl) -N, N-diethylthiocarbamate. 1 81 008 2 9 · Method of inhibiting the growth of unwanted plants, characterized in that an herbicidally effective amount of a preparation containing a thiocarbamate derivative is applied to the plants or to the soil on which the plants grow. of the general formula 1 of the formula sheet, in which one of the symbols X and Y represents a hydrogen atom and the other is a chlorine atom, and 4-amino-3-methyl-6-phenyl-1,2,4-thiazine-5 ( 4H) -one of the formula II of the formula sheet as active ingredients. 8. Method according to claim 7, characterized in that the preparation is applied in a ratio of 0.5-30 kg of the active ingredients per ha. 9. A method according to claim 8, characterized in that the application ratio is 2-12 kg of the active ingredients per ha. 10. Materials and methods as described or contained in the description and / or the examples. 8100829 O Cl / C2H5 C2iï5 \ KUMIAI CHEMICAL INDUSTRY CO. , L '81 0 08 2 9