Fungicidal composition containing n-(alpha-cyano-2-thenyl)-4-ethyl-2-(ethylamino)-5-thiazolecarboxamide

TECHNICAL FIELD

[0001] The present invention relates to a novel fungicidal composition comprising a 2-aminothiazolecarboxamide derivative, N-(α-cyano-2-thenyl)-4-ethyl-2-(ethylamino)-5-thiazolecarboxamide (ISO proposed name: ethaboxam) of the formula:

[0002] , and as an adjuvant a suitable nonionic surfactant.

BACKGROUND ART

[0003] A compound of formula (I), ethaboxam, was already described as a fungicidal compound for crop protection in Korean Patent No. 124,552 (Korean patent application No. 94-19960). Further, ethaboxam-containing formulations, e.g. wettable powder (trade name: Guardian; marketed by Misung Ltd.) were known.

[0004] An adjuvant is a non-pesticidal compound for enhancing a total activity of a pesticide, differently from a co-formulant which controls physical properties of active ingredients to facilitate their handling. Presence of the adjuvant in a pesticidal formulation increases a total quantity of active ingredients which can be contacted with and/or penetrated into a target plant thereby to enhance the activity of pesticide and to remarkably reduce the quantity of active ingredients which needs to be applied. Currently, Environmental Protection Agency in the U.S.A. and Ministry of Agriculture, Fisheries and Food in the United Kingdom are recognizing the employment of the adjuvant as a major tool for obtaining desired activity of novel active ingredients.

[0005] An adjuvant is widely used in leading advanced countries such as the U.S.A. and European countries and conventionally, is manufactured and marketed as a separate package for use as a tank-mix formulation in spraying herbicides. Recently, its application is also extended to fungicides, insecticides, growth regulators and fertilizers. However, the adjuvant for use as the tank-mix formulation is manufactured as a separate package and thus, its production and transportation costs are unavoidably increased and particularly, strict experimental data are required for its registration. Therefore, its development takes a long time and requires enormous expenses.

[0006] Recently, several leading agrochemical manufacturers are likely to formulate an adjuvant in combination with active ingredients in one package thereby to facilitate mixing, transportation and particularly, registration of products. A formulation containing the adjuvant in combination with the active ingredients in one package is referred to as a premixed one-pack formulation, a contrary concept to a tank-mixed formulation. An example of the premixed one-pack formulations is a round-up formulation containing as the adjuvant tallow amine and as the herbicidal compound glyphosate in one package.

[0007] Conventionally, an adjuvant for fungicides is added to a spray liquid when applied and a product containing 75-95% of a mineral oil and 5-25% of a surfactant is widely used. This adjuvant increases the fungicidal activity by improving the retention of active ingredients to plants rather than by increasing foliar penetration of active ingredients. However, such mineral oil-containing product may cause injury to plants and environmental contamination due to its low biodegradability.

[0008] Recently, in order to increase the efficacy of high-activity penetrative fungicides, it was suggested that non-ionic surfactants such as sorbitan esters of fatty acids, polyoxyethylene alkyl ethers, polyoxyethylene sorbitan esters, polyoxyethylene alkyl phenol ethers, polyoxyethylene amides be incorporated into the fungicides (see U.S. Pat. No. 5,905,072). Examples of fungicides which can be employed are as follows: triazoles, e.g. tetraconazole, triadimefon, triadimenol, propiconazole, penconazole, hexaconazole, cyproconazole, flusilazole, etc.; imidazoles, e.g. prochloraz, imazalil, etc.; morpholines, e.g. fenpropimorph, tridemorph etc.; dicarboxyimides, e.g. iprodione, vinclozolin, etc.; piperidines, e.g. fenprodipin, etc.; acyl alanines, e.g. metalaxyl, benalaxyl, etc. In particular, it was disclosed that polyoxyethylene alkyl ethers selectively enhance the efficacy of the penetrative fungicide, benzyl triazolyl cyclopentanes (see U.S. Pat. No. 5,393,770).

[0009] Accordingly, in order to enhance the fungicidal activity of ethaboxam and to reduce the quantity thereof which needs to be applied, screening of an environment friendly adjuvant and development of a novel fungicidal composition using the same may provide many advantages in both commercial and environmental aspects.

DISCLOSURE OF THE INVENTION

[0010] In order to develop a compound enhancing the efficacy of ethaboxam and reducing its quantity which needs to be applied, the present inventors incorporated various potential compounds including anionic and nonionic surfactants into ethaboxam, and conducted experiments for their efficacy enhancement activity. As a result, they found that nonionic surfactants of polyoxyalkylene alkyl ether class cause enhancement of activity. Thus, they prepared a one-pack formulation containing them, and found that such formulation remarkably enhances the fungicidal activity at a given level of ethaboxam. Further, they found that the formulation containing a particular polyoxyalkylene alkyl ether has equivalent or superior efficacy even at a half or less level of ethaboxam, as compared with polyoxyalkylene alkyl ether-free ethaboxam formulation and thus, completed the present invention.

[0011] Thus, it is an object of the present invention to provide a fungicidal composition comprising ethaboxam and a non-pesticidal adjuvant which is more cost-effective and readily biodegradable than active ingredients.

[0012] A first aspect of the present invention provides a fungicidal composition which comprises N-(α-cyano-2-thenyl)-4-ethyl-2-(ethylamino)-5-thiazolecarboxaramide of the formula:

[0013] (hereinafter, referred to as ethaboxam) and a nonionic surfactant.

[0014] A further aspect of the present invention provides a method for enhancing the activity of ethaboxam, which comprises adding a nonionic surfactant to ethaboxam formulation.

[0015] A still further aspect of the present invention provides a method for controlling undesired phytopathogens which comprises applying a formulation prepared from the composition of the present invention to target plants.

[0016] The nonionic surfactant which can be employed in the present invention is classified into polyoxyalkylene alkyl ether having polyoxyalkylene as the hydrophilic moiety and aliphatic alcohol as the lipophilic moiety. Preferred polyoxyalkylene alkyl ether is derived from saturated or unsaturated alcohol having the alkyl chain of 12 to 18 carbon atoms or mixtures thereof More preferred polyoxyalkylene alkyl ether is derived from lauryl alcohol having 12 carbon atoms, cetyl alcohol having 16 carbon atoms, stearyl alcohol being saturated and having 18 carbon atoms or oleyl alcohol being unsaturated and having 18 carbon atoms. In the present invention, polyoxyethylene is representative polyoxyalkylene, but polyoxyethylene-polyoxypropylene copolymer wherein ethylene oxide and propylene oxide is copolymerized is also included. For example, polyoxyethylene has an average of 3 to 50, more preferably, 7 to 20, most preferably, 10 to 14 ethylene oxide units per molecule, depending upon the number of carbon atoms in the alkyl chain derived from aliphatic alcohol. In the present invention, particularly preferred is polyoxyethylene lauryl ether, polyoxyethylene cetyl ether, polyoxyethylene stearyl ether or polyoxyethylene oleyl ether, each of which has an average of 7 to 20 ethylene oxide units per molecule. Polyoxyalkylene alkyl ether employed in the present invention may be obtained by copolymerization of ethylene oxide and natural or synthetic aliphatic alcohol having 12 to 18 carbon atoms and the purity of 50 to 98%.

[0017] The fungicidal composition of the present invention contains 1 to 8 wt %, preferably, 5 to 50 wt % of ethaboxam, 10 to 50 wt % of adjuvant, 10 to 89 wt % of solid or liquid carrier or additive and 0 to 20 wt %, preferably, 0.1 to 10 wt % of surfactants. In case where the composition contains less than 1 wt % of ethaboxam, it is difficult to control the dilution fold. By contrast, in case where the composition contains more than 80 wt % of ethaboxam, it is difficult to maintain physical properties of formulations.

[0018] In the composition of the present invention, the presence of polyoxyalkylene alkyl ether reduces the quantity of ethaboxam which needs to be applied to obtain a given level of activity to a significant extent. Practically, a concentration of ethaboxam in a spray for controlling downy mildew is approximately 250 mg/l. But in case of containing 100 to 2000 mg/l of a particular polyoxyalkylene alkyl ether in a premixed one-pack or tank-mixed formulation, even at a half or less concentration of ethaboxam, the efficacy is equivalent or superior to that of the polyoxyalkylene alkyl ether-free formulation.

[0019] In the composition for one-pack formulation, an adjuvant is comprised at 10 to 50% by weight. Enhancement of activity can be obtained not only in a one-pack formulation but also in a tank-mixed formulation. But, the concentration of the adjuvant is not fixed in the tank-mixed formulation, differently in the one-pack formulation. It is suggested that enhancement of the activity by addition of adjuvant results from the increase of the permeability into plants by improvement of foliar penetration. This can be inferred from the differences in permeability according to the concentration of adjuvant.

[0020] In the present invention, a weight ratio of ethaboxam to adjuvant ranges from about 1:0.5 to about 1:10, preferably, from about 1:1 to about 1:5.

[0021] The fungicidal composition in accordance with the present invention is effective for preventing or curing plant diseases caused by phytopathogens as follows: gerbera phytophthora root rot (Phytophthora cryptogea), potato late blight (Phytophthora infestans), hot pepper phytophthora blight (Phytophthora capsici), tomato late blight (Phytophthora infestans), tobacco black shank (Phytophthora nicotianae var. nicotinae), sesame rot (Phytophthora nicotianae var. parasitica), apple phytophthora fruit rot (Phytophthora cactorum), Cucumis melo L. var. makuwa MAKINO downy mildew (Pseudoperonospora cubensis), melon downy mildew (Pseudoperonospora cubensis), cucumber downy mildew (Pseudoperonospora cubensis), cabbage downy mildew (Peronospora parasitica), lettuce downy mildew (Bremia lactucae), rose downy mildew (Peronospora sparsa), grape downy mildew (Plasmopara viticola), hop downy mildew (Pseudoperonospora humuli) and turf grass Pythium blight (Phythium spp.)

[0022] If desired, the fungicidal composition of the present invention contains carriers, surfactants or co-formulants conveniently used in the pesticide formulation area. For example, the composition is processed to unreformed forms,-for example, to formulations such as wettable powder prepared by homogeneously mixing active ingredient with extender (e.g. solvent, solid carriers and if appropriate, surfactants) and/or grinding the mixture, dispersible concentrate, emulsifiable concentrate, water dispersible granule, suspension concentrate, oil flowable, etc. and applied by spraying onto foliage and stems of plants. Application frequency and application rate are varied depending on biological properties of pathogens and weather environment. Suitable carrier and additive may be solid or liquid which is generally used in the pesticide formulation, for example, natural or synthetic inorganic materials, solvent, dispersing agents, wetting agents, diluents and the like. Employable solvent is polar solvent such as N-methyl-2-pyrrolidone, dimethyl sulfoxide or dimethyl formamide. Auxiliary solvent is long-chain alcohol such as N-octyl-2-pyrrolidone, substituted naphthalene, xylene, substituted benzene, decyl alcohol, dodecyl alcohol, etc. and long-chain ester compounds. Employable solid carrier is micronized natural mineral such as talc, kaolin, calcium carbonate, diatomite or pyrophyllite. Moreover, to improve physical properties, particularly wettability, of. formulation, a water-soluble ionic compound such as anhydrous sodium sulfate or hydrophilic porous synthetic compound may be employed.

[0023] An adjuvant may be adsorbed with an adsorbent such as high-dispersible synthetic silica or high-dispersible adsorbing polymer, etc. (e.g. white carbon, synthetic calcium silicate) within the range of having no harmful effects on storage stability, particularly, at a weight ratio of the adjuvant to the adsorbent ranging from 2:1 to 1:1. Surfactants having various properties may be used depending upon the type of ethaboxam formulations, but suitable is nonionic or anionic surfactant having good wettability and dispersibility. As used herein, surfactants include mixtures thereof A wetting agent employable in the present invention includes anionic wetting agent such as sodium lauryl sulfate, polyoxyalkylene alkyl phenyl ether sulfonate, dialkyl sulfosuccinate, dialkyl naphthalene sulfonate, polyoxyalkylene alkyl ether sulfate, etc., nonionic wetting agent such as acetylene classes and urea complex of non-ionic surfactant. More preferred is sodium lauryl sulfate, polyoxyalkylene alkyl phenyl ether sulfonate, polyoxyalkylene alkyl ether sulfate or urea complex of nonionic surfactant, etc.

[0024] In powder formulations, dispersing agent includes anionic dispersing agent such as lignin sulfonate, naphthalene sulfonate, lauryl sulfate, lauryl sulfonate, polyoxyalkylene alkyl aryl ether sulfate, polyoxyalkylene alkyl ether sulfate, etc. and nonionic dispersing agent such as polyoxyalkylene alkyl aryl ether, polyoxyalkylene alkyl ether, etc. However, in case of using polyoxyethylene cetyl ether or polyoxyethylene stearyl ether with an average of 10 or more ethylene oxide units per molecule as adjuvant, additional dispersing agent may not be comprised because the adjuvant may also function as the dispersing agent. In liquid formulations, dispersing agent such as nonionic dispersing agent with a high dispersibility, for example, polyoxyalkylene alkyl aryl ether, preferably, polyoxyalkylene tristyryl phenol ether or polyoxyalkylene alkyl ether, etc. may be used. In many cases, such dispersing agent is also useful as wetting agent. Wetting and dispersing agents are not limited to those as mentioned above, and may be selected among suitable nonionic or anionic surfactants.

[0025] The fungicidal composition of the present invention may be manufactured into premixed one-pack formulations by mixing ethaboxam and adjuvant with carrier or surfactant or tank-mixed formulations. In this case, -the concentrations of ethaboxam and adjuvant are adjusted to about 30 to about 300 mg/l and about 100 to 2000 mg/l, respectively.

[0026] The composition according to the present invention may further comprise one or more additional agents for preventing or curing plant diseases, which include, but are not limited to, azoxystrobin, copper oxychloride, cymoxanil, dimethomorph, famoxadone, fluazinam metalaxyl, oxadixyl, chlorothalonil, dithianon, folfet, mancozeb, propineb, etc.

[0027] In the present invention, wettable powder may be prepared by the following procedure: ethaboxam is mixed with co-formulants other than adjuvant and absorbent and the mixture is ground using a suitable mill. Adjuvant is previously adsorbed to adsorbent such as white carbon, etc. and ground by Warning blender. Then, the two ground parts are homogeneously mixed to obtain the fungicidal composition. On the other hand, dispersible concentrate may be prepared by the following procedure: active ingredient, adjuvant and other co-formulants are dissolved using a suitable mixer to obtain the homogeneous combination.

BEST MODE FOR CARRYING OUT THE INVENTION

[0028] Hereinafter, the present invention will be explained in more detail with reference to the following examples. However, these examples are merely illustrative of, and are not intended to, nor should be intended to, limit the present invention.

[0029] Formulations having the compositions as set forth in the following tables were prepared. Unless specifically indicated, n represents an average of ethylene oxide units per molecule. In the tables, KONION and Brij represent products by Korea Polyol (Korea) and UniQema (UK), respectively and Koremul and HY by Han Nong Chemicals (Korea).

EXAMPLES 1 to 5

Preparation of Wettable Powder

[0030] Polyoxyethylene alkyl ether was previously adsorbed to white carbon and ground by Warning blender. Ethaboxam was homogeneously mixed with other co-formulants using a vinyl bag and then, the mixture was ground in a mill. Then, the two ground parts were homogeneously mixed to obtain the wettable powder (Table 1).

1TABLE 1Example12345Ethaboxam12.512.512.512.512.5Polyoxyethylene(n = 10) lauryl ether40————(KONION LA-10)Polyoxyethylene(n = 20) lauryl ether—40———(KONION LA-20)Polyoxyethylene(n = 10) cetyl ether——40——(Brij 56)Polyoxyethylene(n = 12) cetyl ether———40—(Koremul CE-12)Polyoxyethylene(n = 20) cetyl ether————40(Brij 58)Anhydrous sodium sulfate15.515.515.515.515.5Sodium lauryl sulfate22222Sodium lignin sulfonate33333White carbon(Zeosil 39)27.027.027.027.027.0(unit: weight %)

EXAMPLES 6 to 10

Preparation of Wettable Powder

[0031] Wettable powder having the composition as set forth in Table 2 was prepared according to the substantially same procedure as Examples 1 to 5.

2TABLE 2Example678910Ethaboxam12.512.512.512.512.5Polyoxyethylene(n = 15) oleyl ether40————(KONION OA-15)Polyoxyethylene(n = 20) oleyl ether—40———(Koremul OE-20)Polyoxyethylene(n = 10) stearyl ether——40——(Brij 76)Polyoxyethylene(n = 14) stearyl ether———40—(Koremul SE-14)Polyoxyethylene(n = 20) stearyl ether————40(Brij 78)Anhydrous sodium sulfate15.515.515.515.515.5Sodium lauryl sulfate22222Sodium lignin sulfonate33333White carbon(Zeosil 39)27.027.027.027.027.0(unit: weight %)

EXAMPLES 11 to 13

Preparation of Wettable Powder

[0032] Wettable powder having the composition as set forth in Table 3 was prepared according to the substantially same procedure as Examples 1 to 5.

3TABLE 3Example111213Ethaboxam12.512.512.5Polyoxyethylene(n = 12) cetyl12.525.037.5ether(Koremul CE-12)Anhydrous sodium sulfate15.515.515.5Sodium lauryl sulfate222Sodium lignin sulfonate333White carbon(Zeosil 39)272727Kaolin27.5152.5(unit: weight %)

EXAMPLES 14 to 16

Preparation of Dispersible Concentrate

[0033] Ethaboxam was previously dissolved in N-methyl-2-pyrrolidone to which were added other co-formulants and adjuvant and dissolved to obtain the dispersible concentrate(Table 4).

4TABLE 4Example141516Ethaboxam12.512.512.5Polyoxyethylene(n = 7) lauryl25——ether(KONION LA-7)Polyoxyethylene(n = 10) lauryl—25—ether(KONION LA-10)Polyoxyethylene(n = 20) lauryl——25ether(KONION LA-20)Polyoxyethylene tristyryl555phenyl ether(HY-310F)N-methyl-2-pyrrolidone57.557.557.5(unit: weight %)

EXAMPLES 17 to 20

Preparation of Dispersible Concentrate

[0034] Dispersible concentrate having the composition as set forth in Table 5 was prepared according to the substantially same procedure as Examples 14 to 16.

5TABLE 5Example17181920Ethaboxam12.512.512.512.5Polyoxyethylene(n = 7) cetyl25———ether(Koremul CE-7)Polyoxyethylene(n = 10) cetyl—25——ether(Brij 56)Polyoxyethylene(n = 15) cetyl——25—ether(Koremul CE-12)Polyoxyethylene(n = 20) cetyl———25ether(Brij 58)Polyoxyethylene tristyryl5555phenyl ether (HY-310F)N-methyl-2-pyrrolidone57.557.557.557.5(unit: weight %)

EXAMPLES 21 to 24

Preparation of Dispersible Concentrate

[0035] Dispersible concentrate having the composition as set forth in Table 6 was prepared according to the substantially same procedure as Examples 14 to 16.

6TABLE 6Example21222324Ethaboxam12.512.512.512.5Polyoxyethylene(n = 7) oleyl25———ether(Koremul OE-7)Polyoxyethylene(n = 10) oleyl—25——ether(Koremul OE-10)Polyoxyethylene(n = 15) oleyl——25—ether(KONION OA-15)Polyoxyethylene(n = 20) oleyl———25ether(Koremul OE-20)Polyoxyethylene tristyryl5555phenyl ether(HY-310F)N-methyl-2-pyrrolidone57.557.557.557.5(unit: weight %)

EXAMPLES 25 to 28

Preparation of Dispersible Concentrate

[0036] Dispersible concentrate having the composition as set forth in Table 7 was prepared according to the substantially same procedure as Examples 14 to 16.

7TABLE 7Example25262728Ethaboxam12.512.512.512.5Polyoxyethylene(n = 7) stearyl25———ether(Koremul SE-7)Polyoxyethylene(n = 10) stearyl—25——ether(Brij 76)Polyoxyethylene(n = 14) stearyl——25—ether(Koremul SE-14)Polyoxyethylene(n = 20) stearyl———25ether(Brij 78)Polyoxyethylene tristyryl5555phenyl ether(HY-310F)N-methyl-2-pyrrolidone57.557.557.557.5(unit: weight %)

EXAMPLES 29 to 31

Preparation of Dispersible Concentrate

[0037] Dispersible concentrate having the composition as set forth in Table 8 was prepared according to the substantially same procedure as Examples 14 to 16.

8TABLE 8Example293031Ethaboxam8.58.58.5Polyoxyethylene(n = 12) cetyl17.025.534.0ether(Koremul CE-12)Polyoxyethylene tristyryl101010phenyl ether(HY-310F)N-methyl-2-pyrrolidone64.556.047.5(unit: weight %)

EXAMPLES 32 to 36

Preparation of Wettable Powder

[0038] Wettable powder having the composition as set forth in Table 9 was prepared according to the substantially same procedure as Examples 1 to 5.

9TABLE 9Example3233343536Ethaboxam77777Azoxystrobin1)5————Copper oxychloride2)—30———Cymoxanil3)——6——Dimethomorph4)———15—Famoxadone5)————9Polyoxyethylene(n = 12)4030404040cetyl ether(Koremul CE-12)Sodium lauryl sulfate22222White carbon(Zeosil 39)26.72026.726.726.7Anhydrous sodium sulfate19.31118.39.315.3(unit: weight %) 1)Methyl (E)-2-{2-[6-(2-cyanophenoxy)pyrimidin-4-yloxy]phenyl}-3-methoxy acrylate 2)Dicopper chloride trihydroxide 3)1-(2-Cyano-2-methoxyiminoacetyl)-3-ethylurea 4)(E,Z)-4-[3-(4-chlorophenyl)-3-(3,4-dimethoxyphenyl)acryloyl]morpholine 5)3-Anilino-5-methyl-5-(4-phenoxyphenyl)-1,3-oxazolidin-2,5-dione

EXAMPLES 37 to 39

Preparation of Wettable Powder

[0039] Wettable powder having the composition as set forth in Table 10 was prepared according to the substantially same procedure as Examples 1 to 5.

10TABLE 10Example373839Ethaboxam777Fluazinam1)12.5——Metalaxyl2)—12.5—Oxadixyl3)——16Polyoxyethylene(n = 12) cetyl404040ether(Koremul CE-12)Sodium lauryl sulfate222White carbon(Zeosil 39)26.726.726.7Anhydrous sodium sulfate11.811.88.3(unit: weight %) 1)3-Chloro-N-[3-chloro-5-trifluoromethyl-2-pyridyl]-α,α,α-trifluoro-2,6-dinitro-p-toluidine 2)Methyl N-(methoxyacetyl)-N-(2,6-xylyl)-DL-alaninate 3)2-Methoxy-N-(2-oxo-1,3-oxazolidin-3-yl)aceto-2′,6′-xylidide

EXAMPLES 40 to 44

Preparation of Wettable Powder

[0040] Wettable powder having the composition as set forth in Table 11 was prepared according to the substantially same procedure as Examples 1 to 5.

11TABLE 11Example4041424344Ethaboxam3.53.53.53.53.5Chlorothalonil1)60————Dithianone2)—30———Folfet3)——20——Mancozeb4)———50—Propineb5)————50Polyoxyethylene(n = 12)1530301515cetyl ether(Koremul CE-12)Sodium lauryl sulfate22222White carbon(Zeosil 39)1020101010Anhydrous Sodium sulfate9.514.524.519.519.5(unit: weight %) 1)Tetrachloroisophthalonitrile 2)5,10-Dihydro-5,10-dioxonaphtho[2,3-b]-1,4-dithiin-2,3-dicarbonitrile 3)N-(trichloromethylthio)phthalimide 4)(Polymerized) Complex of zinc salt and manganese ethylene bis(dithiocarbamate) 5)Polymerized zinc propylene bis(dithiocarbamate)

COMPARATIVE EXAMPLES 1 and 2

Preparation of Dispersible Concentrate

[0041] Ethaboxam co-formulants and extenders were introduced into a vinyl bag and homogeneously mixed. Then, the mixture was ground to obtain the wettable powder(Table 12).

12TABLE 12ComparativeExample12Ethaboxam12.525.0Anhydrous sodium sulfate15.515.5Sodium lauryl sulfate22Sodium lignin sulfonate33White carbon(Zeosil 39)2727Kaolin4027.5(unit: weight %)

COMPARATIVE EXAMPLES 3 to 5

Preparation of Dispersible Concentrate

[0042] Ethaboxam was previously dissolved in N-methyl-2-pyrrolidone and other co-formulants and adjuvant were added thereto and dissolved to obtain the dispersible concentrate(Table 13).

13TABLE 13Comparative Example345Ethaboxam12.58.58.5Polyoxyethylene(n = 12) cetyl——8.5ether(Koremul CE-12)Polyoxyethylene tristyryl51010phenyl ether(HY-310F)Polyoxyethylene(n = 20) sorbitan25——monolaurate(Tween 20)N-methyl-2-pyrrolidone57.581.573.0(unit: weight %)

Evaluation of biological activity

[0043] Enhancement of efficacy by the presence of polyoxyalkylene alkyl ether can be supported by the increase of efficacy of the fungicidal composition containing a particular polyoxyalkylene alkyl ether, as compared with that of polyoxyalkylene alkyl ether-free composition. In addition, enhancement of efficacy by combined formulation can be supported by the maintenance or the increase of efficacy of combined formulation further containing other agents for controlling plant diseases, as compared with that of single formulation having a relatively higher concentration of ethaboxam.

EXPERIMENT 1

Activity of Premixed One-Pack Formulations Containing Ethaboxam and Polyoxyalkylene Alkyl Ether

[0044] 1) Activity on Tomato Late Blight(Phytophthora infestans)

[0045] A) Preventive Activity

[0046] Tomato seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredients, respectively, were prepared from the wettable powder and the dispersible concentrate. The spray liquids were sprayed onto tomato leaves and stems at 5 ml per pot using an atomizer and dried in a greenhouse for 24 hours. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 3 to 4 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Tables 14 and 15.

14TABLE 14Percentage of infected area(%)Concentration as active ingredient(mg/l)Formulation151050100Example 1106200Example 2107200Example 311000Example 400000Example 511000Example 655100Example 753100Example 822100Example 912000Example 1022100Comparative2013500Example 1Comparative2111500Example 2Guardian155300WettablePowder1)Untreated951)Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0047]

15

TABLE 15

Percentage of infected area(%)

Concentration as active ingredient(mg/l)

Formulation
1
5
10
50
100

Example 14
10
4
2
0
0

Example 15
9
3
3
0
0

Example 16
8
4
3
0
0

Example 17
2
1
0
0
0

Example 18
2
1
0
0
0

Example 19
1
1
0
0
0

Example 20
1
1
0
0
0

Example 21
7
3
1
0
0

Example 22
7
2
2
0
0

Example 23
6
3
2
0
0

Example 24
4
3
2
0
0

Example 25
2
2
0
0
0

Example 26
1
2
1
0
0

Example 27
1
1
0
0
0

Example 28
1
1
0
0
0

Comparative
12
6
3
0
0

Example 3

Guardian
15
5
3
0
0

Wettable

Powder1)

Untreated
95

1)
Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0048] As shown in the above tables, the formulations containing polyoxyalkylene alkyl ether considerably enhanced the efficacy, as compared with polyoxyalkylene alkyl ether-free formulations. Especially, the formulations containing polyoxyethylene cetyl ether had the outstanding effect, that is, superior efficacy to Guardian(Misung Ltd.) even at a half or less concentration of ethaboxam.

[0049] B) Curative Activity

[0050] Tomato seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 24 hours. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, were prepared from the wettable powder and the dispersible concentrate. The spray liquids were sprayed onto tomato leaves and stems at 5 ml per pot using an atomizer and then, the disease was induced at 20° C. under the relative humidity of 100% for 2 to 3 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Tables 16 and 17.

16TABLE 16Percentage of infected area(%)Concentration as active ingredient(mg/l)Formulation151050100Example 1179500Example 21911700Example 342100Example 432000Example 531000Example 697300Example 7106200Example 843100Example 952200Example 1052100Comparative40171310Example 1Comparative37151210Example 2Guardian35151010WettablePowder1)Untreated1001)Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0051]

17

TABLE 17

Percentage of infected area(%)

Concentration as active ingredient(mg/l)

Formulation
1
5
10
50
100

Example 14
15
8
5
0
0

Example 15
12
7
5
0
0

Example 16
10
7
7
0
0

Example 17
2
1
1
0
0

Example 18
3
1
1
0
0

Example 19
1
0
0
0
0

Example 20
3
1
0
0
0

Example 21
7
6
3
0
0

Example 22
8
3
3
0
0

Example 23
7
3
2
0
0

Example 24
7
4
3
0
0

Example 25
3
1
0
0
0

Example 26
2
1
1
0
0

Example 27
2
0
0
0
0

Example 28
1
1
1
0
0

Comparative
20
11
8
1
0

Example 3

Guardian
35
15
10
1
0

Wettable

Powder1)

Untreated
100

1)
Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0052] As shown in the above tables, the curative activity of tomato late blight was significantly enhanced as compared with the comparative example and Guardian wettable powder where polyoxyalkylene alkyl ether was not contained. It had a similar pattern to the preventive activity thereof Accordingly, it was confirmed that the fungicidal composition of the present invention enhanced both preventive and curative activities of tomato late blight.

[0053] 2) Activity on Potato Late Blight (Phytophthora infestans)

[0054] A) Preventive Activity

[0055] Artificial seed potatoes were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, were prepared from the wettable powder and the dispersible concentrate. The spray liquids were sprayed onto potato leaves and stems at 5 ml per pot using an atomizer and dried in a greenhouse for 24 hours. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer. In order to induce 5 the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 3 to 4 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Tables 18 and 19.

18TABLE 18Percentage of infected area(%)Concentration as active ingredient(mg/l)Formulation151050100Example 11210700Example 21310700Example 332100Example 431000Example 543100Example 697500Example 7107600Example 843100Example 942000Example 1033100Comparative25201000Example 1Comparative23211000Example 2GuardianWettablePowder1)2013800Untreated1001)Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0056]

19

TABLE 19

Percentage of infected area(%)

Concentration as active ingredient(mg/l)

Formulation
1
5
10
50
100

Example 14
10
8
7
0
0

Example 15
12
8
5
0
0

Example 16
10
7
4
0
0

Example 17
2
1
1
0
0

Example 18
3
1
1
0
0

Example 19
2
1
0
0
0

Example 20
3
1
0
0
0

Example 21
7
3
3
0
0

Example 22
8
4
2
0
0

Example 23
9
3
1
0
0

Example 24
7
7
3
0
0

Example 25
3
2
1
0
0

Example 26
2
1
0
0
0

Example 27
2
1
1
0
0

Example 28
2
2
2
0
0

Comparative
17
14
10
0
0

Example 3

Guardian
20
13
8
0
0

Wettable

Powder1)

Untreated
100

1)
Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0057] As shown in the above tables, the preventive activity of potato late blight was similar to that of tomato late blight.

[0058] B) Curative Activity

[0059] Artificial seed potatoes were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 24 hours. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, were prepared from the wettable powder and the dispersible concentrate. The spray liquids were sprayed onto potato leaves and stems at 5 ml per pot using an atomizer and then, the disease was induced at 20° C. under the relative humidity of 100% for 2 to 3 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Tables 20 and 21.

20TABLE 20Percentage of infected area(%)Concentration as activeingredient(mg/l)Formulation151050100Example 11611600Example 21613700Example 352100Example 432100Example 533100Example 6107400Example 7149200Example 843100Example 933200Example 1053100Comparative38171310Example 1Comparative35161310Example 2Guardian40171530WettablePowder1)Untreated1001)Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0060]

21

TABLE 21

Percentage of infected area(%)

Concentration as active

ingredient(mg/l)

Formulation
1
5
10
50
100

Example 14
17
13
7
0
0

Example 15
15
12
5
0
0

Example 16
13
12
5
0
0

Example 17
4
3
0
0
0

Example 18
5
2
1
0
0

Example 19
3
1
0
0
0

Example 20
5
2
1
0
0

Example 21
11
8
5
0
0

Example 22
10
7
4
0
0

Example 23
9
7
5
0
0

Example 24
13
8
5
0
0

Example 25
5
4
2
0
0

Example 26
5
3
2
0
0

Example 27
4
3
1
0
0

Example 28
6
2
1
0
0

Comparative
30
12
10
1
0

Example 3

Guardian
40
17
15
3
0

Wettable

Powder1)

Untreated
100

1)
Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0061] As shown in the above tables, the curative activity of potato late blight was also similar to that of tomato late blight. Accordingly, it was confirmed that the fungicidal composition of the present invention enhanced both preventive and curative activities of potato late blight.

[0062] 3) Activity on Cucumber Downy Mildew (Pseudoperonospora cubensis)

[0063] A) Preventive Activity

[0064] Cucumber seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, were prepared from the wettable powder and the dispersible concentrate. The spray liquids were sprayed onto cucumber leaves and stems at 5 ml per pot using an atomizer and dried in a greenhouse for 24 hours. Pseudoperonospora cubensis was prepared at a concentration of 5×104 zoosporangia/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 3 to 4 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured: The results are shown in the following Tables 22 and 23.

22TABLE 22Percentage of infected area(%)Concentration as activeingredient(mg/l)Formulation151050100Example 174400Example 266300Example 321000Example 411000Example 511000Example 655200Example 743200Example 822100Example 911000Example 1021100ComparativeExample 11610700ComparativeExample 21510700GuardianWettablePowder1)138600Untreated801)Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0065]

23

TABLE 23

Percentage of infected area(%)

Concentration as active

ingredient(mg/l)

Formulation
1
5
10
50
100

Example 14
8
8
6
0
0

Example 15
10
7
6
0
0

Example 16
9
6
5
0
0

Example 17
3
2
0
0
0

Example 18
2
2
0
0
0

Example 19
2
1
0
0
0

Example 20
2
2
0
0
0

Example 21
8
7
4
0
0

Example 22
7
5
3
0
0

Example 23
7
5
1
0
0

Example 24
9
6
3
0
0

Example 25
4
3
1
0
0

Example 26
2
2
1
0
0

Example 27
2
2
2
0
0

Example 28
3
3
0
0
0

Comparative
14
10
8
0
0

Example 3

Guardian
13
6
6
0
0

Wettable

Powder1)

Untreated
80

1)
Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0066] As shown in the above tables, in the untreated group, the incidence rate of cucumber downy mildew was slightly lower than tomato and potato late blights because of its characteristics, but the preventive activity of cucumber downy mildew was similar to that of tomato and potato late blights.

[0067] B) Curative Activity

[0068] Cucumber seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Pseudoperonospora cubensis was prepared at a concentration of 5×104 zoosporangia/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 24 hours. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, were prepared from the wettable powder and the dispersible concentrate. The spray liquids were sprayed onto cucumber leaves and stems at 5 ml per pot using an atomizer and then, the disease was induced at 20° C. under the relative humidity of 100% for 2 to 3 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Tables 24 and 25.

24TABLE 24Percentage of infected area(%)Concentration as activeingredient(mg/l)Formulation151050100Example 11310500Example 2128500Example 352100Example 421100Example 542000Example 687500Example 7107600Example 842000Example 952000Example 1041100Comparative30141120Example 1Comparative31161110Example 2Guardian30151020WettablePowder1)Untreated801)Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0069]

25

TABLE 25

Percentage of infected area(%)

Concentration as active

ingredients(mg/l)

Formulation
1
5
10
50
100

Example 14
16
13
6
0
0

Example 15
13
10
8
0
0

Example 16
11
11
5
0
0

Example 17
5
3
1
0
0

Example 18
3
3
1
0
0

Example 19
4
2
1
0
0

Example 20
4
3
0
0
0

Example 21
9
7
4
0
0

Example 22
8
8
4
0
0

Example 23
8
6
5
0
0

Example 24
9
7
5
0
0

Example 25
6
3
4
0
0

Example 26
3
2
0
0
0

Example 27
4
2
0
0
0

Example 28
5
2
1
0
0

Comparative
21
12
7
1
0

Example 3

Guardian
30
15
10
2
0

Wettable

Powder1)

Untreated
100

1)
Ethaboxam 25% wettable powder commercialized by Misung Ltd.

[0070] As shown in the above tables, the curative activity of cucumber downy mildew was also similar to that of tomato and potato late blights. Accordingly, it was confirmed that the fungicidal composition of the present invention enhanced both preventive and curing activities of cucumber downy mildew.

EXPERIMENT 2

Activity of Tank-Mixed Formulations Containing Polyoxyalkylene Alkyl Ether

[0071] 1) Activity on Tomato Late Blight (Phytophthora infestans)

[0072] A) Preventive Activity

[0073] Tomato seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, and containing 320 mg/l of polyoxyalkylene alkyl ethers were prepared from the wettable powder of Comparative Example 1 and polyoxyalkylene alkyl ethers of the following Table 26. The spray liquids were sprayed onto tomato leaves and stems at 5 ml per pot using an atomizer and dried in a greenhouse for 24 hours. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 3 to 4 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Table 26.

26TABLE 26Percentage of infected area(%)ConcentrationPolyoxyethylene alkyl etheras active ingredient(mg/l)(320 mg/l) in a spray liquid151050100Polyoxyethylene(n = 7)128300lauryl ether(KONION LA-7)Polyoxyethylene(n = 10)126200lauryl ether(KONION LA-10)Polyoxyethylene(n = 20)97210lauryl ether(KONION LA-20)Polyoxyethylene(n = 7)52200cetyl ether(Koremul CE-7)Polyoxyethylene(n = 10)22100cetyl ether(Brij 56)Polyoxyethylene(n = 12)20000cetyl ether(Koremul CE-12)Polyoxyethylene(n = 20)11000cetyl ether(Brij 58)Polyoxyethylene(n = 7)63200oleyl ether(Koremul OE-7)Polyoxyethylene(n = 10)65100oleyl ether(Koremul OE-10)Polyoxyethylene(n = 15)33000oleyl ether(KONION OA-15)Polyoxyethylene(n = 20)41000oleyl ether(Koremul OE-20)Polyoxyethylene(n = 7)76110stearyl ether(Koremul SE-7)Polyoxyethylene(n = 10)21100stearyl ether(Brij 76)Polyoxyethylene(n = 14)10000stearyl ether(Koremul SE-14)Polyoxyethylene(n = 20)21000stearyl ether(Brij 78)Polyoxyethylene alkyl ether-free2214500

[0074] As shown in the above table, the tank-mixed formulation containing polyoxyalkylene alkyl ether was confirmed to enhance the preventive activity of tomato late blight in the same manner as the premixed one-pack formulation.

[0075] B) Curative Activity

[0076] Tomato seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100% for 24 hours. Spray liquids having the concentrations of 1, 5, 10, 50 and 100 mg/l as active ingredient, respectively, and containing 320 mg/l of polyoxyalkylene alkyl ethers were prepared from the wettable powder of Comparative Example 1 and polyoxyalkylene alkyl ethers of the following Table 27. The spray liquids were sprayed onto tomato leaves and stems at 5 ml per pot using an atomizer and then, the disease was induced at 20° C. under the relative humidity of 100% for 2 to 3 days. When the incidence rate of disease in the untreated group reached 80% or more, the incidence rate of disease in each group was measured. The results are shown in the following Table 27.

27TABLE 27Percentage of infected area(%)ConcentrationPolyoxyethylene alkyl etheras active ingredient(mg/l)(320 mg/l) in a spray liquid151050100Polyoxyethylene(n = 7)1612500lauryl ether(KONION LA-7)Polyoxyethylene(n = 10)156300lauryl ether(KONION LA-10)Polyoxyethylene(n = 20)135310lauryl ether(KONION LA-20)Polyoxyethylene(n = 7)54100cetyl ether(Koremul CE-7)Polyoxyethylene(n = 10)32000cetyl ether(Brij 56)Polyoxyethylene(n = 12)21000cetyl ether(Koremul CE-12)Polyoxyethylene(n = 20)21100cetyl ether(Brij 58)Polyoxyethylene(n = 7)98400oleyl ether(Koremul OE-7)Polyoxyethylene(n = 10)67400oleyl ether(Koremul OE-10)Polyoxyethylene(n = 15)53200oleyl ether(KONION OE-15)Polyoxyethylene(n = 20)54100oleyl ether(Koremul OE-20)Polyoxyethylene(n = 7)65310stearyl ether(Koremul SE-7)Polyoxyethylene(n = 10)21000stearyl ether(Brij 76)Polyoxyethylene(n = 14)31000stearyl ether(Koremul SE-14)Polyoxyethylene(n = 20)21100stearyl ether(Brij 78)Polyoxyethylene alkyl ether-free43201330

[0077] As shown in the above table, the tank-mixed formulation containing polyoxyalkylene alkyl ether was confirmed to enhance the curative activity of tomato late blight in the same manner as the premixed one-pack formulation. Accordingly, it was confirmed that the fungicidal composition of the present invention enhanced efficacy not only in the premixed one-pack formulation but also in the tank-mixed formulation.

EXPERIMENT 3

Activity of the Fungicidal Composition Containing Additional Agents for Controlling Plant Diseases Other Than Ethaboxam

[0078] 1) Residual Activity on Tomato Late Blight (Phytophthora infestans)

[0079] Tomato seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 4 weeks. Spray liquids having the concentrations of 100 and 200 mg/l as the product, respectively, were prepared from the wettable powder. The spray liquids were sprayed onto tomato leaves and stems at 5 ml per pot using an atomizer and dried in a greenhouse for 24 hours. Phytophthora infestans was prepared at a concentration of 1×104 zoospores/ml and inoculated into the plants using an atomizer at 1, 5 and 10 days after spraying the liquids, respectively. In order to induce the disease, the inoculated plants were placed at 20° C. under the relative humidity of 100%. The incidence rate of disease was measured at 3 to 4 days after the final inoculation. The results are shown in the following Table 28.

28TABLE 28Percentage of infected area(%)Concentrationof spray(mg/l; asInoculation day after spraying the liquidFormulationthe product)1 day5 days10 daysExample 3210081026Example 3371824Example 3481328Example 3581331Example 3651013Example 37101018Example 3851316Example 3961023Example 402005846Example 41131528Example 4261119Example 431413Example 447720Example 410010924Guardian71534Untreated—100

[0080] As shown in the above table, the combined formulations containing ethaboxam and additional agents effective for crop downy mildew or rot exhibited outstanding or similar efficacy even at a lower quantity of ethaboxam, as compared with the formulation of Example 4 and Guardian wettable powder. Especially, the residual activity was remarkably enhanced in the combined formulation of ethaboxam and mancozeb having the effect of preventing various plant diseases. Accordingly, it was confirmed that combined formulations containing ethaboxam and other agents for controlling plant diseases had the enhanced the efficacy. In particular, the quantity of ethaboxam which needs to be applied could be remarkably reduced by combining preventive agents with ethaboxam.

EXPERIMENT 4

Relationship of the Concentration of Polyoxyalkylene Alkyl Ether and Foliar Penetration of Ethaboxam

[0081] In order to investigate the relationship of the concentration of polyoxyalkylene alkyl ether and the foliar penetration of ethaboxam, foliar penetration experiment was carried out using radioisotope [C14]-labeled ethaboxam as follows.

[0082] Cucumber seeds were sown in a horticultural bed soil of pots having a diameter of 6 cm and grown under glass for 3 weeks. 10 mg of the formulation prepared in the comparative example was diluted in 10 ml of tap water. 20 μl of the diluted solution was taken and thereto was added 1.0 μCi of ethaboxam labeled with C14(81.7 μCi/mg) to prepare the diluted ethaboxam formulation labeled with C14. The diluted solution was spotted on the foliage of cucumber at a precise amount of 10 μl using a microsyringe. After spotting, the cucumbers were placed in a greenhouse for 24 hours.

[0083] The plants were cut at a distance of 1 cm from the bottom of soil and the cuts were introduced into 250 ml Erlenmeyer flask. 50 ml of the mixed solution of acetonitrile and distilled water (volume ratio=1:4) was added thereto and then, the flask was plugged and shaken for 1 minute. Radioactivity of C14-ethaboxam in the solution was measured with a liquid scintillation counter and the residue was combated with a sample oxidizer to collect C14-carbon dioxide, which was analyzed with the liquid scintillation counter.

[0084] Foliar penetration of ethaboxam is calculated by subtracting radioactivity in the solution from the total radioactivity, which is identical with radioactivity in the residue.

[0085] The results are shown in the following Table 29.

29TABLE 29FormulationDegree of penetration (%)Comparative Example 10Example 110Example 123Example 139Comparative Example 40Comparative Example 58Example 2915Example 3024Example 3140

[0086] As can be seen from the above, ethaboxam was hardly penetrated into plants in the absence of adjuvant and the penetration was increased in proportion to the content of adjuvant. In addition, it was confirmed that dispersible concentrate had a higher permeability than wettable powder. This suggests that enhancement of efficacy is co-related with the increase of penetration in the presence of polyoxyalkylene alkyl ether. However, enhancement of efficacy is co-related with, but may not be proportional to, increase of penetration. That is, the efficacy may be changed depending on environments within or outside of plants, physiological factors of plants or characteristics of pathogens.

INDUSTRIAL APPLICABILITY

[0087] The fungicidal composition in accordance with the present invention not only enhances efficacy of ethaboxam but also reduces its quantity which needs to be applied thereby to reduce production costs of active ingredients and to minimize their quantity applied to the environment and thus, contributes to the preservation of agricultural ecosystem.

Fungicidal composition containing n-(alpha-cyano-2-thenyl)-4-ethyl-2-(ethylamino)-5-thiazolecarboxamide

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