JP2022136161A - Liquid agrochemical composition and method for controlling mite - Google Patents

Abstract

To provide a liquid agrochemical composition that comprises etoxazole and cyenopyrafen and can be used as an aqueous suspended preparation with high storage stability.SOLUTION: A liquid agrochemical composition comprises etoxazole, cyenopyrafen, at least one surfactant selected from the following surfactant group A and water. The surfactant group A consists of polyoxyalkylene arylphenyl ether, polyoxyalkylene tristyryl phenyl ether phosphoester, alkyl naphthalene sulfonate and a formaldehyde condensate thereof, an acryl graft copolymer, a polyoxyalkylene block copolymer and lignin sulfonate.SELECTED DRAWING: None

Description

TECHNICAL FIELD The present invention relates to a liquid agricultural chemical composition and a method for controlling mites.

As one of the forms of agrochemical formulations, an aqueous suspension concentrate called SC is known, in which particles of a solid agrochemical active ingredient are suspended in water. Japanese Patent Application Laid-Open No. 2013-95740 (Patent Document 1) describes an aqueous suspension pesticide composition containing etoxazole having acaricidal activity.

JP 2013-95740 A

An object of the present invention is to provide a liquid pesticide composition that contains etoxazole and cyenopyrafen and can be used as an aqueous suspension preparation with good storage stability, and a method for controlling mites using the same.

The present invention includes the following liquid pesticide composition and method for controlling mites.
[1] A liquid agricultural chemical composition containing etoxazole, cyenopyrafen, at least one surfactant selected from the following surfactant group A, and water.
Surfactant Group A: Polyoxyalkylene arylphenyl ether, polyoxyalkylene tristyrylphenyl ether phosphate, alkylnaphthalene sulfonate and its formaldehyde condensate, acrylic graft copolymer, polyoxyalkylene block copolymer and lignin sulfonate [2] containing 1 to 20 w/v% of etoxazole, 5 to 50 w/v% of cyenopyrafen, 0.1 to 20 w/v% of the surfactant, and 10 to 80 w/v% of water [ 1].
[3] The liquid agricultural chemical composition according to [1] or [2], wherein the surfactant is two or more surfactants selected from the surfactant group A.
[4] A method for controlling mites, comprising the step of applying the liquid pesticide composition according to any one of [1] to [3] to mites or sites where mites are infested.

It is possible to provide a liquid pesticide composition that contains etoxazole and cyenopyrafen and can be used as an aqueous suspension formulation with good storage stability, and a method for controlling mites using the same.

The liquid pesticide composition according to the present invention (hereinafter also referred to as "the composition of the present invention") contains etoxazole, cyenopyrafen, at least one surfactant selected from surfactant group A, and water. The composition of the present invention can be suitably used as an aqueous suspension formulation. In the composition of the present invention, the pesticidally active ingredients etoxazole and cyenopyrafen are preferably dispersed in water in a solid state.

Since the composition of the present invention contains a combination of etoxazole and cyenopyrafen as an agricultural chemical active ingredient and a specific surfactant, it can be an aqueous suspension preparation with good storage stability. In addition, the composition of the present invention can exhibit excellent mite control performance.

Both etoxazole and cyenopyrafen are compounds known as acaricidal compounds and can be produced by known methods. The chemical name of etoxazole is 2-(2,6-difluorophenyl)-4-[4-(1,1-dimethylethyl)-2-ethoxyphenyl]-4,5-dihydrooxazole, the chemical name of cyenopyrafen is (1E)-2-cyano-2-[4-(1,1-dimethylethyl)phenyl]-1-(1,3,4-trimethyl-1H-pyrazol-5-yl)ethenyl 2,2- dimethylpropanoate.

The content of etoxazole in the composition of the present invention is generally 1-20 w/v%, preferably 3-15 w/v%, more preferably 5-15 w/v%, based on 100 w/v% of the composition of the present invention. The content of cyenopyrafen in the composition of the present invention is usually 5 to 50 w/v%, preferably 10 to 40 w/v%, more preferably 15 to 40 w/v% in 100w/v% of the composition of the present invention.

The content ratio of etoxazole to cyenopyrafen in the composition of the present invention (ethoxazole: cyenopyrafen) is generally 10:1 to 1:50, preferably 5:1 to 1:20, more preferably 1:1 to 1, by weight. :10, more preferably 1:1, 1:2, 1:3, 1:4 or 1:5.

The composition of the present invention contains at least one surfactant selected from surfactant group A below. In one embodiment, the composition of the present invention contains two or more surfactants selected from surfactant group A below.
Surfactant Group A: Polyoxyalkylene arylphenyl ether, polyoxyalkylene tristyrylphenyl ether phosphate, alkylnaphthalene sulfonate and its formaldehyde condensate, acrylic graft copolymer, polyoxyalkylene block copolymer and lignin sulfonate group consisting of

Polyoxyalkylene aryl phenyl ethers include, for example, polyoxyethylene aryl phenyl ethers. Examples of polyoxyalkylene tristyrylphenyl ether phosphate salts include polyoxyethylene tristyrylphenyl ether phosphate salts. Polyoxyalkylene block copolymers include, for example, polyoxyethylene polyoxypropylene block copolymers.

Examples of the salts of the phosphates and sulfonates include sodium salts, potassium salts, calcium salts, ammonium salts, isopropylamine salts, and triethanolamine salts.

The content of the surfactant in the composition of the present invention (the total content thereof when containing two or more surfactants) is usually 0.1 to 20 w / in 100 w / v% of the composition of the present invention. v %, preferably 1 to 15 w/v %, more preferably 2 to 12 w/v %.

The composition of the invention contains water. Water includes deionized water, tap water and ground water. The content of water in the composition of the present invention is usually 10 to 80 w/v%, preferably 20 to 75 w/v%, more preferably 25 to 70 w/v% in 100w/v% of the composition of the present invention.

In one embodiment, the composition of the present invention contains 1 to 20 w/v % etoxazole, 5 to 50 w/v % cyenopyrafen, 0.1 to 20 w/v % of said surfactant and 10 to 80 w/v water. % each.

The composition of the present invention may contain other components than those mentioned above, if desired. Other ingredients include, for example, agricultural chemical active ingredients other than those mentioned above, thickeners, preservatives, antifreezing agents, antifoaming agents, and other formulation adjuvants.

Examples of thickeners include natural polysaccharides such as xanthan gum, rhamsan gum, locust bean gum, guar gum, carrageenan, welan gum, alginic acid, alginate, and tragacanth gum; carboxymethylcellulose sodium; aluminum silicate, magnesium aluminum silicate, smectite, bentonite, hectorite. , synthetic hydrous silicic acid, dry silica and other mineral powders; and alumina sol. The composition of the present invention may contain one or more thickeners.

When the composition of the present invention contains a thickening agent, the content of the thickening agent is usually 0.01 to 2 w/v%, preferably 0.05 to 1 w/v, in 100 w/v% of the composition of the present invention. %, more preferably 0.1 to 0.5 w/v %.

Examples of preservatives include p-hydroxybenzoic acid esters, salicylic acid derivatives, and isothiazolinone preservatives. The composition of the present invention may contain one or more preservatives. When the composition of the present invention contains a preservative, the content of the preservative is usually 0.01 to 1 w/v%, preferably 0.05 to 0.5 w/v, in 100 w/v% of the composition of the present invention. %, more preferably 0.1 to 0.5 w/v %.

Antifreeze agents include, for example, ethylene glycol, propylene glycol, urea and glycerin. The compositions of the present invention may contain one or more antifreeze agents. When the composition of the present invention contains an antifreeze agent, the content of the antifreeze agent is usually 1 to 10 w/v%, preferably 2 to 8 w/v%, based on 100 w/v% of the composition of the present invention.

Antifoaming agents include silicone antifoaming agents. The composition of the present invention may contain one or more antifoaming agents. When the composition of the present invention contains an antifoaming agent, the content of the antifoaming agent is usually 0.01 to 1 w/v%, preferably 0.05 to 0.5w, in 100w/v% of the composition of the present invention. /v%.

The composition of the present invention can be prepared by mixing prescribed components by a conventionally known method for preparing SC. Examples of preparation methods are given below.

First, etoxazole, cyenopyrafen, a surfactant, water, and, if necessary, adjuvants for formulation (antifoaming agent, etc.) are mixed, and the obtained suspension is subjected to pulverization treatment to obtain a pulverized suspension. obtained (first step). Then, to the obtained pulverized suspension, if necessary, other formulation adjuvants (thickeners, preservatives, antifreeze agents, etc.) and water are added and mixed to obtain the composition of the present invention (Second process). When adding other formulation adjuvants in the second step, the other formulation adjuvants and water are mixed in advance to prepare a liquid, and the liquid and the pulverized suspension are mixed to obtain the composition of the present invention. may be obtained.

In the composition of the present invention, etoxazole and cyenopyrafen are finely divided and dispersed. The volume median diameter of etoxazole and cyenopyrafen is usually 20 μm or less, preferably about 0.5 to 5 μm.

The present invention also relates to a method for controlling mites comprising the step of applying the composition of the present invention to mites or to sites where mites are present. The user will typically apply the compositions of the present invention to a knapsack sprayer, spray tank, spray plane, speed sprayer, or irrigation system. Apply from Generally, the composition of the invention is diluted with water to the desired application concentration to form a spray solution. Generally, 200 to 50,000 L, preferably 1,000 to 10,000 L of spray liquid are applied per hectare. The water used for dilution may contain a spreading agent if necessary.

Hereinafter, the present invention will be described in more detail with reference to production examples and test examples, but the present invention is not limited to these examples. Unless otherwise specified, "%" and "parts" in the examples mean % by weight and parts by weight, respectively.

The products used for the preparation of liquid pesticide compositions are shown below.
(Surfactant)
[1] Soprophor FLK: Polyoxyethylene arylphenyl ether (about 20% content in the product), polyoxyethylene tristyrylphenyl ether phosphate potassium salt (about 20%), and propylene glycol (about 60%) [2] Morwet D-425: formalin condensate sodium salt of alkylnaphthalene sulfonic acid, manufactured by Nouryon [3] Tersperse 2500: acrylic graft copolymer, manufactured by Huntsman Petrochemical [4] Synperonic PE/F 127: Polyoxyethylene polyoxypropylene block copolymer, manufactured by Croda [5] Ethylan NS-500LQ: polyoxyethylene polyoxypropylene block copolymer, manufactured by Nouryon [6] Reax 85A: sodium lignin sulfonate: manufactured by Ingevity

(thickener)
[1] Kelzan S Plus: xanthan gum, manufactured by CP Kelco [2] Veegum R: magnesium aluminum silicate, R.I. T. Vanderbilt Company. Inc. [3] Cellogen 7A: Carboxymethylcellulose sodium, Daiichi Kogyo Seiyaku Co., Ltd. [4] Kunipia F: Bentonite, Kunimine Industry Co., Ltd. [5] Aerosil COK84: A mixture of dry silica and aluminum oxide, Evonik Operations GmbH

(Antifoaming agent)
XIAMETER ACP-1500: silicone-based mixture, manufactured by Dow Corning Toray Co., Ltd.

(antifreezing agent)
Propylene glycol: propylene glycol, manufactured by Adeka

(Preservative)
Proxel GXL: 1,2-benzisothiazolin-3-one (about 20% content in the product), manufactured by Lonza

<Production Example 1>
Glass beads are added to the mixture obtained by mixing etoxazole, cyenopyrafen, Soprophor FLK, XIAMETER ACP-1500, and ion-exchanged water, and wet pulverization is performed by stirring using a three-one motor (manufactured by Yamato Scientific Co., Ltd.). obtain a suspension.
Further, Kelzan S Plus, Veegum R, Proxel GXL and Propylene Glycol are added to deionized water and stirred for 2 hours to obtain a thickened liquid.
Then, the pulverized suspension and the thickened liquid are mixed to obtain a liquid agricultural chemical composition. Table 1 shows the composition of the resulting liquid agricultural chemical composition. The unit of numerical value for each compounding component is "w/v%". In addition, "Balance" in the table indicates the remainder of the ingredients other than water when the total amount of the liquid pesticide composition is 100 w/v%. Represents the amount of water.

<Production Examples 2 to 25>
A liquid agricultural chemical composition is prepared in the same manner as in Production Example 1, except that the types and amounts of the ingredients are as shown in Table 1 or Table 2.

<Production Examples 26 to 50>
In Production Examples 26-50, Celogen 7A and Kunipia F were used instead of Kelzan S Plus and Veegum R, and the content of each of these in the liquid pesticide compositions of Production Examples 1-25 was 0.2 w/v%. A liquid pesticide composition is prepared in the same manner as in Production Examples 1 to 25, except that the blending amount is adjusted so that

<Production Examples 51 to 75>
In Production Examples 51 to 75, each of Production Examples 26 to 50 was used except that the content of celogen 7A in each of the liquid pesticide compositions of Production Examples 26 to 50 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 76 to 100>
In Production Examples 76 to 100, each of Production Examples 26 to 50 was used except that the content of celogen 7A in each liquid pesticide composition of Production Examples 26 to 50 was adjusted to 0.6 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 101 to 125>
In Production Examples 101 to 125, Production Examples 76 to 100 were used, respectively, except that the content of KUNIPIA F in the liquid pesticide compositions of Production Examples 76 to 100 was adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 126 to 150>
In Production Examples 126 to 150, each of Production Examples 101 to 125 was prepared except that the content of celogen 7A in each liquid pesticide composition of Production Examples 101 to 125 was adjusted to 0.8 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 151 to 175>
In Production Examples 151 to 175, each of Production Examples 126 to 150 was adjusted except that the content of Kunipia F in the liquid agricultural chemical composition of Production Examples 126 to 150 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 176 to 200>
In Production Examples 176 to 200, the content of Cellogen 7A in each liquid agricultural chemical composition of Production Examples 26 to 50 was 0.5 w/v%, and the content of Kunipia F was 1 w/v%. A liquid agricultural chemical composition is prepared in the same manner as in Production Examples 26 to 50, except that the blending amount is adjusted so that

<Production Examples 201 to 225>
Production Examples 201 to 225 are the same as Production Examples 176 to 200, respectively, except that the content of celogen 7A in each liquid agricultural chemical composition of Production Examples 176 to 200 is adjusted to 1 w/v%. to prepare a liquid pesticide composition.

<Production Examples 226 to 250>
In Production Examples 226 to 250, Aerosil COK84 was used instead of Kelzan S Plus and Veegum R, and the amount was adjusted so that the content in each of the liquid agricultural chemical compositions of Production Examples 1 to 25 was 0.2 w/v%. A liquid agricultural chemical composition is prepared in the same manner as in Production Examples 1 to 25, except for adjusting the

<Production Examples 251 to 275>
In Production Examples 251 to 275, the content of Aerosil COK84 in each of the liquid pesticide compositions of Production Examples 226 to 250 was adjusted to 0.5 w/v%, respectively, except that the blending amount was adjusted to 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 276 to 300>
Production Examples 276 to 300 are the same as Production Examples 226 to 250, respectively, except that the content of Aerosil COK84 in each liquid pesticide composition of Production Examples 226 to 250 is adjusted to 1 w/v%. to prepare a liquid pesticide composition.

<Production Examples 301 to 325>
In Production Examples 301 to 325, the content of Kelzan S Plus in each of the liquid agricultural chemical compositions of Production Examples 1 to 25 was 0.15 w/v%, and the content of Veegum R was 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as in Production Examples 1 to 25, except that the blending amount is adjusted so that it becomes v%.

<Production Examples 326 to 350>
In Production Examples 326 to 350, liquid agricultural chemical compositions are prepared in the same manner as in Production Examples 1 to 25, respectively, except that Celogen 7A is used instead of Kelzan S Plus in the respective liquid agricultural chemical compositions of Production Examples 1 to 25. .

<Production Examples 351 to 375>
In Production Examples 351 to 375, each of Production Examples 326 to 350 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 326 to 350 was adjusted to 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 376 to 400>
In Production Examples 376 to 400, each of Production Examples 326 to 350 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 326 to 350 was adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 401 to 425>
In Production Examples 401 to 425, each of Production Examples 326 to 350 was used except that the content of Veegum R in each of the liquid pesticide compositions of Production Examples 326 to 350 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 426 to 450>
In Production Examples 426 to 450, each of Production Examples 326 to 350 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 326 to 350 was adjusted to 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 451 to 475>
In Production Examples 451 to 475, each of Production Examples 326 to 350 was used except that the content of Cellogen 7A in each of the liquid pesticide compositions of Production Examples 326 to 350 was adjusted to 0.2 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 476 to 500>
In Production Examples 476-500, Production Examples 451-475, respectively, except that the content of Veegum R in each of Production Examples 451-475 was adjusted so that the content of Veegum R in each liquid pesticide composition was 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 501 to 525>
In Production Examples 501 to 525, Production Examples 451 to 475, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 451 to 475 is adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 526 to 550>
In Production Examples 526-550, Production Examples 451-475, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 451-475 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 551 to 575>
In Production Examples 551 to 575, each of Production Examples 451 to 475 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 451 to 475 was adjusted to 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 576 to 600>
In Production Examples 576 to 600, each of Production Examples 326 to 350 was used except that the content of celogen 7A in each liquid pesticide composition of Production Examples 326 to 350 was adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 601 to 625>
In Production Examples 601 to 625, each of Production Examples 576 to 600 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 576 to 600 was adjusted to 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 626 to 650>
In Production Examples 626 to 650, each of Production Examples 576 to 600 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 576 to 600 was adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 651 to 675>
In Production Examples 651 to 675, each of Production Examples 576 to 600 was used except that the content of Veegum R in each of Production Examples 576 to 600 was adjusted so that the content of Veegum R was 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 676 to 700>
In Production Examples 676 to 700, each of Production Examples 576 to 600 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 576 to 600 was adjusted so that the content of Veegum R was 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 701 to 725>
In Production Examples 701 to 725, each of Production Examples 326 to 350 was used except that the content of Cellogen 7A in each of the liquid pesticide compositions of Production Examples 326 to 350 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 726 to 750>
In Production Examples 726-750, Production Examples 701-725, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 701-725 was adjusted to 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 751 to 775>
In Production Examples 751 to 775, each of Production Examples 701 to 725 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 701 to 725 was adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 776 to 800>
In Production Examples 776-800, Production Examples 701-725, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 701-725 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 801 to 825>
In Production Examples 801 to 825, each of Production Examples 701 to 725 was used except that the content of Veegum R in each liquid pesticide composition of Production Examples 701 to 725 was adjusted to 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 826 to 850>
In Production Examples 826 to 850, each of Production Examples 326 to 350 was used except that the content of Cellogen 7A in each liquid pesticide composition of Production Examples 326 to 350 was adjusted so that the content of Cellogen 7A was 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 851 to 875>
In Production Examples 851-875, Production Examples 826-850 were used, respectively, except that the content of Veegum R in each of Production Examples 826-850 was adjusted so that the Veegum R content was 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 876 to 900>
In Production Examples 876-900, Production Examples 826-850 were used, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 826-850 was adjusted so that the content of Veegum R was 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 901 to 925>
In Production Examples 901-925, Production Examples 826-850 were used, respectively, except that the content of Veegum R in each of Production Examples 826-850 was adjusted so that the Veegum R content was 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 926 to 950>
In Production Examples 926-950, Production Examples 826-850 were used, respectively, except that the content of Veegum R in each of Production Examples 826-850 was adjusted so that the content of Veegum R was 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 951 to 975>
In Production Examples 951 to 975, each of Production Examples 326 to 350 was used except that the content of Cellogen 7A in each of the liquid pesticide compositions of Production Examples 326 to 350 was adjusted to 0.6 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 976 to 1000>
In Production Examples 976 to 1000, each of Production Examples 951 to 975 except that the content of Veegum R in each liquid pesticide composition of Production Examples 951 to 975 is adjusted so that the content of Veegum R is 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1001 to 1025>
In Production Examples 1001 to 1025, Production Examples 951 to 975, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 951 to 975 was adjusted so that the content of Veegum R was 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1026 to 1050>
In Production Examples 1026-1050, Production Examples 951-975, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 951-975 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1051 to 1075>
In Production Examples 1051-1075, Production Examples 951-975, respectively, except that the content of Veegum R in each of Production Examples 951-975 is adjusted so that the content of Veegum R is 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1076 to 1100>
In Production Examples 1076 to 1100, each of Production Examples 326 to 350 was used except that the content of celogen 7A in each liquid pesticide composition of Production Examples 326 to 350 was adjusted to 0.7 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1101 to 1125>
In Production Examples 1101-1125, Production Examples 1076-1100, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1076-1100 is adjusted to 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1126 to 1150>
In Production Examples 1126 to 1150, each of Production Examples 1076 to 1100, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1076 to 1100 is adjusted to 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1151 to 1175>
In Production Examples 1151-1175, Production Examples 1076-1100, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1076-1100 is adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1176 to 1200>
In Production Examples 1176 to 1200, each of Production Examples 1076 to 1100, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1076 to 1100 is adjusted to 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1201 to 1225>
In Production Examples 1201 to 1225, each of Production Examples 326 to 350 was used except that the content of celogen 7A in each liquid pesticide composition of Production Examples 326 to 350 was adjusted to 0.8 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1226 to 1250>
In Production Examples 1226 to 1250, Production Examples 1201 to 1225, respectively, except that the content of Veegum R in each liquid agricultural chemical composition of Production Examples 1201 to 1225 is adjusted so that the content of Veegum R is 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1251 to 1275>
In Production Examples 1251-1275, Production Examples 1201-1225, respectively, except that the content of Veegum R in each of Production Examples 1201-1225 is adjusted so that the content of Veegum R is 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1276 to 1300>
In Production Examples 1276 to 1300, Production Examples 1201 to 1225, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1201 to 1225 is adjusted so that the content of Veegum R is 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1301 to 1325>
In Production Examples 1301 to 1325, Production Examples 1201 to 1225, respectively, except that the content of Veegum R in each of the liquid agricultural chemical compositions of Production Examples 1201 to 1225 is adjusted so that the content of Veegum R is 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1326 to 1350>
In Production Examples 1326 to 1350, each of Production Examples 326 to 350 was used except that the content of celogen 7A in each of the liquid agricultural chemical compositions of Production Examples 326 to 350 was adjusted so that the content of Cellogen 7A was 0.9 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1351 to 1375>
In Production Examples 1351-1375, Production Examples 1326-1350, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1326-1350 is adjusted to 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1376 to 1400>
In Production Examples 1376-1400, Production Examples 1326-1350, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1326-1350 is adjusted so that the content of Veegum R is 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1401 to 1425>
In Production Examples 1401 to 1425, Production Examples 1326 to 1350, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1326 to 1350 is adjusted so that the content of Veegum R is 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1426 to 1450>
In Production Examples 1426 to 1450, each of Production Examples 1326 to 1350, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1326 to 1350 is adjusted so that the content of Veegum R is 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1451 to 1475>
Production Examples 1451 to 1475 are the same as Production Examples 326 to 350, respectively, except that the content of celogen 7A in each liquid pesticide composition of Production Examples 326 to 350 is adjusted to 1 w/v%. to prepare a liquid pesticide composition.

<Production Examples 1476 to 1500>
In Production Examples 1476 to 1500, Production Examples 1451 to 1475, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1451 to 1475 is adjusted so that the content of Veegum R is 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1501 to 1525>
In Production Examples 1501 to 1525, Production Examples 1451 to 1475, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1451 to 1475 is adjusted so that the content of Veegum R is 0.3 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1526 to 1550>
In Production Examples 1526 to 1550, Production Examples 1451 to 1475, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1451 to 1475 is adjusted so that the content of Veegum R is 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1551 to 1575>
In Production Examples 1551-1575, Production Examples 1451-1475, respectively, except that the content of Veegum R in each liquid pesticide composition of Production Examples 1451-1475 was adjusted so that the content of Veegum R was 0.5 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 1576 to 2825>
In Production Examples 1576 to 2825, the amount of sorbic acid in each of Production Examples 326 to 1575 is 0.1 w/v%, except that the amount of sorbic acid in each liquid pesticide composition is 0.1 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 2826 to 5650>
In Production Examples 2826 to 5650, each of Production Examples 1 to 2825 was used except that the content of Proxel GXL in each liquid pesticide composition of Production Examples 1 to 2825 was adjusted to 0.2 w/v%. A liquid pesticide composition is prepared in the same manner as above.

<Production Examples 5651 to 8475>
In Production Examples 5651 to 8475, each of Production Examples 1 to 2825 was used except that the content of Proxel GXL in each liquid pesticide composition of Production Examples 1 to 2825 was adjusted to 0.4 w/v%. A liquid pesticide composition is prepared in the same manner as above.

The specific gravities of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 are all about 1.06.

<Test Example 1>
The liquid pesticide compositions prepared in Production Examples 1 to 8475 are placed in 50 mL glass bottles, sealed, and stored in a thermostat set at 25°C. All of the liquid pesticide compositions prepared in Production Examples 1 to 8475 exhibit suppressed changes in physicochemical properties over time, and can be used without problems even after long-term storage.

<Test Example 2>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical Co.) diluted with water containing 0.02% by volume.
50 ml of the resulting water-diluted solution is sprayed on the foliage of unshu mandarin oranges (variety: Okitsuwase) grown in pots at the leaf stage using a pressurized sprayer. Thirty days after spraying, the leaves of the mandarin orange were cut, placed in a petri dish with a diameter of 9 cm and placed on absorbent cotton wetted with water, and 10 female adult mites of the mandarin orange (Panonychus citri) were released on the leaf surface and placed in an artificial climate chamber. (temperature 25°C, humidity 70%, light conditions: light period 16 hours, dark period 8 hours). After 9 days, the number of live and dead adults, the number of unhatched eggs and the number of hatched larvae are examined. As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 3>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical Co.) diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3000 L/Ha using a power sprayer on mandarin oranges (variety: Wogan) in leaf stage on which Panonychus citri is abundant. At 3, 7, 14, 21 and 28 days after spraying, 20 mandarin orange leaves are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 4>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical) so that the concentration of etoxazole was 16 ppm and the concentration of cyenopyrafen was 48 ppm. Co.) diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed on Citrus tachibana (variety: sugar cane) in the foliage stage in which Panonychus citri occurs frequently at a spray volume of 3050 L/Ha using a power sprayer. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus tachibana are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 5>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed on Citrus reticulate (variety: Ai Yuan Ai Yuan) in leaf development stage with a large number of Panonychus citri at a spray volume of 3100 L/Ha using a power sprayer. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus reticulate are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 6>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3150 L/Ha using a power sprayer on Citrus reticulate (cultivar: Dekopon Shiranui) in leaf development stage when many Panonychus citri are present. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus reticulate are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 7>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3200 L/Ha using a power sprayer on Citrus reticulate (variety: Chun Jian Chun Jian) in leaf development stage when Panonychus citri is abundant. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus reticulate are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 8>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3250 L/Ha using a power sprayer on Citrus reticulate (variety: Fertile orange yokan) in leaf development stage when Panonychus citri occurs frequently. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus reticulate are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 9>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3300 L/Ha using a power sprayer on Citrus reticulata (cultivar: Pokan Takumi) in leaf development stage when Panonychus citri occurs frequently. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus reticulata are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 10>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical) so that the concentration of etoxazole was 15 ppm and the concentration of cyenopyrafen was 45 ppm. Co.) diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3350 L/Ha using a power sprayer on Citrus reticulata (variety: Satsuma unshu mikan) in the leaf development stage when Panonychus citri is abundant. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus reticulata are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 11>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical Co.) diluted with water containing 0.02% by volume.
The resulting water dilution was diluted with Citrus sinensis Osb. Brasliliensis (cultivar: Tanaka Qi Chung) is foliarly sprayed at a spray volume of 3400 L/Ha using a power sprayer. Citrus sinensis Osb. Randomly collect 20 leaves of Brasliliensis per tree and examine under a microscope the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae. As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 12>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed on Citrus sinensis (variety: 'blood orange' blood orange) at the leaf-opening stage where Panonychus citri occurs frequently at a spray volume of 3450 L/Ha using a power sprayer. . 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus sinensis are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid pesticide compositions.

<Test Example 13>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3500 L/Ha using a power sprayer on Citrus sinensis (cultivar: Osbeck Tendai) in leaf development stage when Panonychus citri is abundant. 3, 7, 14, 21 and 28 days after spraying, 20 leaves of Citrus sinensis are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. . As a result, an excellent control effect against Citrus spider mite was confirmed in the case of using any of the liquid agricultural chemical compositions.

<Test Example 14>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark ), Sumitomo Chemical Co.) is diluted with water containing 0.02% by volume.
The resulting water-diluted solution is sprayed on foliage at a spray volume of 3750 L/Ha using a power sprayer on apples (cultivar: Fuji) at the flowering stage where many Tetranychus kanzawai are present. 3, 7, 14, 21 and 28 days after spraying, randomly collect 20 apple leaves from each tree, and examine under a microscope the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae. As a result, an excellent control effect against spider mite Kanzawa was confirmed when any of the liquid pesticide compositions were used.

<Test Example 15>
Any one of the liquid agricultural chemical compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical) so that the concentration of etoxazole was 15 ppm and the concentration of cyenopyrafen was 45 ppm. Co.) diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray rate of 3500 L/Ha using a power sprayer on leaf-developing apples (variety: Fuji) infested with two-spotted spider mites (Tetranychus urticae). 10, 20 and 30 days after spraying, 10 apple leaves are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. As a result, an excellent control effect against two-spotted spider mites was confirmed when any of the liquid agricultural chemical compositions were used.

<Test Example 16>
Any one of the liquid pesticide compositions prepared in Production Examples 1 to 8475 was added with a spreading agent (trade name: Syndyne (registered trademark), Sumitomo Chemical) so that the concentration of etoxazole was 20 ppm and the concentration of cyenopyrafen was 60 ppm. Co.) diluted with water containing 0.02% by volume.
The resulting water-diluted solution is foliarly sprayed at a spray volume of 3250 L/Ha using a power sprayer on young apples (variety: Fuji) infested with apple spider mites (Panonychus ulmi). 5, 15, 20 and 25 days after spraying, 15 apple leaves are randomly collected from each tree, and the number of living and dead adults, the number of unhatched eggs and the number of hatched larvae are examined under a microscope. As a result, an excellent control effect against the apple spider mite was confirmed even when any of the liquid agricultural chemical compositions were used.

Claims (4)

A liquid agricultural chemical composition containing etoxazole, cyenopyrafen, at least one surfactant selected from the following surfactant group A, and water.
Surfactant Group A: Polyoxyalkylene arylphenyl ether, polyoxyalkylene tristyrylphenyl ether phosphate, alkylnaphthalene sulfonate and its formaldehyde condensate, acrylic graft copolymer, polyoxyalkylene block copolymer and lignin sulfonate group consisting of The liquid according to claim 1, which contains 1 to 20 w/v% of etoxazole, 5 to 50 w/v% of cyenopyrafen, 0.1 to 20 w/v% of the surfactant, and 10 to 80 w/v% of water. pesticide composition. 2. The liquid agricultural chemical composition according to claim 1, wherein said surfactant is two or more surfactants selected from said surfactant group A. A method for controlling mites, comprising the step of applying the liquid pesticide composition according to any one of claims 1 to 3 to mites or sites where mites are infested.