JP2022058528A - Use of safeners with ppo inhibitor herbicides - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide methods for reducing the effect of a herbicide on crops and/or for improving the selectivity between crops and weed species targeted by the herbicide.

SOLUTION: Disclosed herein are methods, compositions and methods for making the compositions for reducing crop injury by applying to crops a composition containing one or more safeners and a herbicide composition containing a protoporphyrinogen oxidase (PPO) inhibitor. In particular aspects, the safeners contain cloquintocet-mexyl and/or mefenpyr-diethyl.

SELECTED DRAWING: None

COPYRIGHT: (C)2022,JPO&INPIT

Description

The subject matter of the invention disclosed in the present application relates to the field of pesticide compositions and pesticide formulations, and in particular to the compositions and formulations of phytotoxicity mitigating agents for use with herbicides.

One of the more preferred methods of controlling weeds in crops is post-germination weed control, in which a herbicide (one or more) is applied after the crop in question has germinated from the soil. Post-germination control is desirable because the herbicide only needs to be applied to areas where weeds have invaded. Pre-germination control, on the other hand, requires the application of herbicides early in the growing season, before most weeds germinate, and even if these chemicals are not ultimately needed in the field. It will have to be used for the whole of.

Protoporphyrinogen oxidase (PPO) is an enzyme found in both plants and animals and is involved in the seventh step of biosynthesis of protoporphyrin IX. This porphyrin is a biosynthetic precursor of animal hemoglobin and plant chlorophyll. This enzyme catalyzes the dehydrogenation of protoporphyrinogen IX to form protoporphyrin IX.

Fast-acting herbicides, such as PPO herbicides, are not safe for many crops when applied after germination of the crop. Protoporphyrinogen oxidase inhibitors (PPOs) are herbicides that act by blocking the production of chlorophyll and heme in plants, resulting in the accumulation of protoporphyrinogen IX, which is ultimately toxic to plants.

For example, herbicides such as calfentrazone ethyl and fluthiaset methyl can cause phytotoxicity to cereals.

A phytotoxicity reducing agent is a compound used in combination with a herbicide to make the herbicide "safer" for use in crops. This includes reducing the effect of the herbicide on the crop and / or improving the selectivity between the crop and the weeds targeted by the herbicide.

One aspect of the present invention selectively comprises weeds in a crop, comprising applying an effective herbicide composition containing a fast-acting herbicide and an effective amount of a pesticide composition to crop weeds. Regarding how to control.

In some embodiments, the phytotoxicity reducing agent composition comprises cloquintoset mexil, mefenpildiethyl, benoxalol, dichlormid, isoxadiphenethyl, cyprosulfamide, fenchlorim, fenchlorazoleethyl, fluxophenim, naphthalic anhydride. , Siometrinyl, oxabetrinyl, flurazol, frirazole, dimulon, cumyllon, dimepipelate, and dietrate, and contains one or more phytotoxicity reducing agents selected from the group.

In some embodiments, the fast-acting herbicide comprises a protoporphyrinogen oxidase (PPO) inhibitor herbicide, diquat, paraquat, glufosinate ammonium, and bialaphos.

Another aspect of the present invention comprises applying a herbicidal effective amount of a herbicidal composition containing a protoporphyrinogen oxidase (PPO) inhibitor and an effective amount of a chemical damage reducing agent composition to crop weeds. Concerning how to selectively control weeds in. In some embodiments, the phytotoxicity reducing agent contains cloquintoset mexil, mefenpildiethyl, or a mixture thereof.

In one aspect, a pharmaceutical product containing a protoporphyrinogen oxidase (PPO) inhibitor herbicide and a phytotoxicity reducing agent composition is disclosed. In some embodiments, the phytotoxicity reducing agent composition comprises cloquintoset mexil, mefenpildiethyl, or a mixture thereof.

To selectively control weeds in crops, comprising combining a herbicidal composition containing a protoporphyrinogen oxidase (PPO) inhibitor with a composition containing a phytotoxicity reducing agent in some embodiments. Disclose the manufacturing method of the pharmaceutical product. In some embodiments, the phytotoxicity reducing agent composition comprises cloquintoset mexil, mefenpildiethyl, or a mixture thereof.

The term "herbicide" is used herein to describe unwanted plants (but not limited to, harmful or annoying, weeds, broad-leaved plants, grass, and sedges, unless otherwise noted. It means a compositional mixture that can be used in the manufacture, sale, or field to wither or otherwise inhibit (such as sedge)) and for crop protection, building protection, or lawn protection. The term "herbicide" includes end-use herbicides. The composition can be a pure compound, a solution of a chemical compound, a mixture of chemical compounds, a milky lotion, a suspension, a solid-liquid mixture, or a liquid-liquid mixture. The term "herbicide" is distributed from the manufacturer to the end consumer via a commercial channel, with the end consumer weeding the herbicide as it is sold or mixed with other excipients. It also means products that can be applied to the field.

The term "weed" means and includes any plant that grows in undesired locations, including native crops and pesticide resistant plants.

The term "effective" or "effective amount of herbicides" used for herbicides refers to the observable herbicidal effects on unwanted plant growth (necrosis, mortality, growth inhibition, reproduction inhibition, growth inhibition, and. Means the amount required to bring about removal, destruction, or otherwise diminishing the development and activity of unwanted plants.

The term "herbicide active ingredient" means an active ingredient in a herbicide that causes the herbicide to prevent, destroy, destroy, or mitigate any weed. Other components of the herbicide that are not herbicidal active ingredients are excipients that aid in the formation of the herbicidal active ingredient, the storage of the herbicidal active ingredient, or the delivery of the herbicidal active ingredient to the target.

The definition of the term "herbicide composition" means any composition comprising a herbicide and, in addition, a herbicidal active ingredient. The composition may be a solution or a mixture. In addition, the definition of the term "mowing composition" also means a product intended for use in manufacturing, or any product intended for formulation or repackaging into other agricultural products.

In the present specification, "labeled use rate", "authorized use rate", "labeled application rate", or "registered application rate". The term, when applied to herbicidal compositions, is a percentage that applies to fields containing crops and / or weeds, as established by the agrochemical industry and reflected in Environmental Protection Agency (EPA) regulations. Means the proportion appropriate for the control of the listed weeds. The licensed usage rate is reflected on the appropriate label on the commercial product packaging.

Fast-acting herbicides, such as PPO inhibitors, are not safe for many crops when applied after germination of the crop. For example, calfentrazone ethyl is known to cause phytotoxicity to cereals. The herbicide furciacetmethyl is not classified for cereals as it is not safe for cereals. In the present specification, the inventors have shown that the co-application of a phytotoxicity-reducing agent / phytotoxicity-mitigating agent mixture brings safety to the above-mentioned herbicides to cereals. Furthermore, the combined use of the above-mentioned herbicide and the phytotoxicity reducing agent composition is considered to extend the usefulness of these herbicides to rice crops.

In certain embodiments, the herbicide and phytotoxicity reducing agent may be applied individually. In another embodiment, a mixture containing a herbicide and a phytotoxicity reducing agent may be applied.

One aspect of the present invention selectively comprises weeds in a crop, comprising applying an effective herbicide composition containing a fast-acting herbicide and an effective amount of a pesticide composition to crop weeds. Regarding how to control.

In some embodiments, the phytotoxicity reducing agent composition is cloquintoset mexil, mefenpildiethyl, benoxalol, dichlormid, isoxadiphenethyl, cyprosulfamide, fenchlorim, fenchlorazoleethyl, fluxophenim, naphthal. It contains one or more phytotoxicity mitigating agents selected from the group consisting of acid anhydride, siometrinyl, oxabetrinyl, flurazol, frylazole, dimulon, cumyllon, dimepipelate, and dietrate.

In some embodiments, the fast-acting herbicide comprises a protoporphyrinogen oxidase (PPO) inhibitor, diquat, paraquat, glufosinate ammonium, and bialaphos.

Examples of such PPO inhibitors are, but are not limited to, acifluorfen, acifluorfen sodium, azaphenidine, bifenox, butaphenacyl, clomethoxyphene, chlornitrofen, ethoxyphenethyl, fluorodiphen, fluoroglycophen. Ethyl, fluoronitrofen, homesaphen, fryloxyphene, halosafene, lactophen, nitrofen, nitrofluorfen, oxyfluorfen, flumicrolacpentyl, fluminoxazine, profluazole, pyrazogyl, oxadialgyl, oxadiazone, pentoxazone, fluazolate, pilaf Rufenethyl, benzfenzizone, butaphenacyl, sinidoneethyl, flumipropin, flupropacil, fluthiasetmethyl, thidiazimin, azaphenidine, calfentrazone, calfentrazone ethyl, sulfentrazone, saflufenacil, flufenpyrethyl, ET- Examples thereof include 751, JV 485, nipyraclofen, or a mixture of two or more thereof.

Another aspect of the present invention comprises applying a herbicidal effective amount of a herbicidal composition containing a protoporphyrinogen oxidase (PPO) inhibitor and an effective amount of a chemical damage reducing agent composition to crop weeds. Concerning how to selectively control weeds in.

Another aspect of the present invention relates to a method for selectively controlling weeds in crops, which comprises applying a preparation containing a protoporphyrinogen oxidase (PPO) inhibitor and a phytotoxicity reducing agent composition to crop weeds.

In some embodiments, the phytotoxicity reducing agents are cloquintoset mexil, mefenpildiethyl, dimulon, cumyllon, dimepiperate, fenchlorim, fenchlorazole ethyl, isoxadiphenethyl, cyprosulfamide, benoxacol, dichlormid. , Flurazole, flurazol, oxabetrinyl, siometrinyl, naphthalic anhydride, dietrate, fluxophenim, and mixtures thereof. In some embodiments, the phytotoxicity reducing agent is preferably cloquintoset mexil, mefenpildiethyl, or a mixture thereof.

In some embodiments, the PPO inhibitor may also be selected from the group consisting of calfentrazone, calfentrazone ethyl, sulfentrazone, furciaset methyl, saflufenacyl, and mixtures of two or more thereof. good. In some embodiments, the PPO inhibitor is preferably carfentrazone ethyl or fluthiaset methyl.

In another embodiment, the protoporphyrinogen oxidase (PPO) inhibitor is selected from diphenyl ethers, oxadiazoles, cyclicimides, or pyrazoles. Examples of such PPOs are, but are not limited to, acifluorfen, acifluorfen sodium, azaphenidine, bifenox, butaphenacyl, clomethoxyphene, chlornitrofen, ethoxyphenethyl, fluorodiphen, fluoroglycophen. Ethyl, fluoronitrofen, homesaphen, fryloxyphene, halosafene, lactophen, nitrofen, nitrofluorfen, oxyflowfen, flumicrolacpentyl, fluminoxazine, profluazole, pyrazogyl, oxadialgyl, oxadiazone, pentoxazone, fluazolate, Pyraflufenethyl, benzfendisone, butafenacil, cinidoneethyl, flumipropin, flupropasyl, fluthiasetmethyl, thidiazimin, azaphenidine, calfentrazone, carfentrazone ethyl, sulfentrazone, saflufenacil, flufenpyrethyl, ET -751, JV 485, nipyraclofen, or a mixture of two or more thereof.

The herbicidal compositions of the present disclosure may be in any conventional agriculturally useful form, eg, in the form of a twin pack, a ready-to-use formation, or a tank mix. It may be. In addition, the active compound may be supplied in any suitable formulation form (either individually or in the form of a premix), eg, an emulsion in combination with an agriculturally acceptable functional spreading agent. Concentrate (EC), SC agent (SC), SE agent (suspo-emulsion) (SE), CS agent (capsule liquid) (CS), granule wettable powder (water dispersible granule) (W) EG agent (emulsible granule) (EG), EO agent (water in oil emulsion) (EO), EW agent (oil in water emulsion) (EW), microemulsion (ME), oil suspension agent (oil dispersion) OD), oil-mixable emulsion (OF), oil-mixable liquid (OL), solution-concentrate (SL), suspension formulation for ultra-trace spraying (ultra-low). Volume suspension (SU), ultra-low volume emulsion (UL), dispersion concentrate (DC), wettable powder (WP) and CS agents and EW agents. A mixed homogenized formulation (ZW), or any other technically feasible formulation. In the case of a tank mix, the commercially available preparation of the PPO inhibitor and the phytotoxicity reducing agent is combined in the tank in an appropriate ratio before application so as to obtain a target weight ratio of the active ingredient. In certain embodiments, the herbicidal composition of the present disclosure is a tank mix. In another embodiment, the herbicidal composition of the present disclosure is supplied as a premix emulsion (EC).

The application ratio of the composition or the application ratio of the individually formulated active ingredient to be mixed in the tank is the target weed, the degree of weed growth, meteorological conditions, soil conditions, crop species, application mode, application time, etc. It depends on the general conditions of. The composition containing the PPO inhibitor and / or the phytotoxicity reducing agent is a spray such as a water-dispersible concentrate, a wettable power, or a water dispersible granule. May be applied as.

In some embodiments, the application rate of each active ingredient (active ingredients, "ai") (such as a herbicide or phytotoxicity reducing agent) may vary from crop to crop. In some embodiments, different proportion ranges may be used for different PPO inhibitor herbicides. In some embodiments, the application rate of the herbicide is from about 5 g active ingredient / hectare (gai / ha) to about 420 g ai / ha. In some embodiments, the application rate of the phytotoxicity reducing agent is from about 5 g ai / ha to about 350 g ai / ha, or from about 10 to about 300 g ai / ha. In some embodiments, the weight ratio between the phytotoxicity mitigating agent and the herbicide is from about 10: 1 (phytotoxicity mitigating agent: herbicide) to about 1:30 (phytotoxicity mitigating agent: herbicide).

In one embodiment, the present disclosure describes an pesticide formulation or tank mix containing a fast-acting herbicide and a phytotoxicity reducing agent composition. The fast-acting herbicide may include PPOs. In some embodiments, the PPO inhibitor is selected from calfentrazone, calfentrazone ethyl, sulfentrazone, fluthiasetmethyl, saflufenacyl, and mixtures of two or more thereof. In some embodiments, the PPO inhibitor is preferably carfentrazone ethyl or fluthiaset methyl. In some embodiments, the phytotoxicity reducing agent comprises cloquintoset mexil, mefenpildiethyl, or a mixture thereof. In some embodiments, the phytotoxicity mitigating composition and the fast-acting herbicide are in a weight ratio between about 10: 1 (phytotoxicity mitigating agent: herbicide) and about 1:30 (phytotoxicity mitigating agent: herbicide). exist. In some embodiments, they may be in the form of a commercially available formulation that is tank-blended at the time of application or a suitable premix formulation. Suitable premix formulations include, but are not limited to, SC agents (SC) and emulsions (EC).

In some embodiments, the crop may be selected from the group consisting of genetically engineered or non-genetically engineered shiva, wheat, barley, corn, rice, sorghum, embuck, and triticale.

In some embodiments, the susceptible weeds are, but are not limited to, thistles, thistles, thistles, common waterhemp, velvetleaf, morning glory plants. , Nightshade spices, Shiroza, Noharagarashi, Dutch thistle, Gumbinazuna, common mellow, Honagaaogeito, American biyu, Haribyu, Thistle, Thistle, Thistle, Thistle, Thistle, Thistle, Thistle, Thistle, Thistle, Thistle Thistle, thistle, kochia, groundcherry, splinter, thistle, nazuna, Russian thistle, thistle, thistle, hamasuge, butakusa, himemukashiyomogi, oyster, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle. Thistle, American daisy, smartweeds, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle , Kosendangusa, thistle, thistle, dandelion, thistle, mustard plants, thistle, thistle, first-year thistle, and spiny thistle.

In addition, the compositions and tank mixes of the present disclosure include crop protectants (but not limited to fungicides, pesticides, nematodes, plant growth regulators, herbicides excluding PPO herbicides, etc. It may further contain fertilizers and mixtures thereof).

In some embodiments, weed control is effective for at least 14 days after treatment, preferably at least 60 days after treatment.

In addition, the composition of the present disclosure may contain a preservative. Suitable preservatives are, but are not limited to, alkyl benzoate (C ₁₂ -C ₁₅ ), parahydroxybenzoic acid alkyl esters, aloe vera extract, ascorbic acid, benzalconium chloride, benzoic acid, C. ₉ - _C15 Alcohol benzoic acid ester, butylated hydroxytoluene, butylated hydroxyanisole, tert-butylhydroquinone, castor oil, cetyl alcohol, chlorocresol, citric acid, cocoa butter, coconut oil, diazoridinyl urea, diisopropyl adipate, Dimethylpolysiloxane, DMDM hydantin, ethanol, ethylenediamine tetraacetic acid, fatty acid, fatty alcohol, hexadecyl alcohol, hydroxybenzoic acid ester, propynyl butylcarbamate iodide, isononyl isononanoate, jojoba oil, lanolin oil, mineral oil, oleic acid, olive oil , Paraben, polyether, polyoxypropylene butyl ether, polyoxypropylene cetyl ether, potassium sorbate, propyl castorate, silicone oil, sodium propionate, sodium benzoate, sodium hydrogen sulfite, sorbic acid, stear fatty acid, sulfur dioxide, vitamins E, vitamin E acetate, and derivatives, esters, salts, and mixtures thereof. Preferred preservatives include sodium orthophenylphenol, 5-chloro-2-methyl-4-isothiazolin-3-one, 2-methyl-4-isothiazolin-3-one, and 1,2-benisothiazolin-3-one. (1,2-benisothiazolin-3-one) can be mentioned.

The present specification discloses compositions and methods effective in controlling crop weeds in crops. This specification describes a herbicide (calfentrazone) by adding a phytotoxicity reducing agent (such as cloquintoset mexil or mefenpildiethyl) or a phytotoxicity reducing agent mixture (such as croquintoset mexil + mefenpildiethyl). It is shown that the phytotoxicity of crops caused by (such as ethyl and fluthiasetmethyl) can be reduced without affecting the efficacy of these herbicides. Co-application of the herbicide / herbicide mixture with the PPO herbicide can increase the proportion of herbicides applied to crops licensed for herbicides and crops not licensed for herbicides. It is thought that the use of herbicides can be expanded.

The following examples are merely illustrative of the invention and should not be construed as limiting the scope of the invention in any way. This is because those skilled in the art will appreciate further modifications included in the present invention. Such amendments are also considered to be included in the scope of the invention described herein and in the claims.

(Example)
(Example 1)
(Materials and methods)
Calfentrazone ethyl (25 or 50 g ai / ha) or fluthiasetmethyl (5.6 or 11.2 g ai / ha ^* ) to investigate the drug-damaging effect of one or more drug-damaging agents on crops. Croquintoset mexil + mefenpil diethyl, croquintoset mexil + naphthalic acid anhydride, mefenpil diethyl + naphthalic acid anhydride, croquintoset mexil, mefenpil diethyl, or naphthalic acid anhydride. ( ^* However, naphthalic anhydride was not used in the investigation of fluthiasetmethyl). The phytotoxicity reducing agents cloquintoset mexil, mefenpildiethyl, and naphthalic anhydride were applied at 6.6, 27.2, and 74.1 g ha / ha, respectively. As another treatment, carfentrazone ethyl alone or fluthiaset methyl alone was also applied. A nonionic surfactant (0.25% (v / v)) was added in all treatments with carfentrazone ethyl and fluthiaset methyl. Treatment of carfentrazone ethyl and fluthiaset methyl was applied to the crop 10 days after planting. Wheat and weeds were planted in 3'' plastic pots filled with metromix. The treatment was applied using a TeeJet 8001E nozzle at 40 PSI and a compressed air track spray chamber at 30 GPA. Data were analyzed using Minitab Statistical Software with a 95% confidence interval. The average of each evaluation interval of wheat phytotoxicity (%) with the same alphabet was 95% confidence interval, which was not significantly different.

The phytotoxicity to the crop was evaluated using a visual evaluation method. This evaluation method is based on a scale of 0 to 100%, where 0% indicates no phytotoxicity and 100% indicates complete death of the plant. Table 1 shows linear evaluation scales that can be used to assess weed control or crop damage (revised from Francs et al. (1986)). Chemical damage to crops of 10% or less is considered commercially acceptable. An assessment of phytotoxicity of 20% or less indicates that the crop is not significantly adversely affected and recovers quickly and completely. The level of phytotoxicity to commercially acceptable crops varies from crop to crop. Phytotoxicity levels above 20% are generally not commercially acceptable.

In this study, phytotoxicity / herbicide treatment reduced crop phytotoxicity from commercially unacceptable levels to commercially acceptable levels.

(Example 2)
In the greenhouse study, the phytotoxicity-reducing effect of the phytotoxicity-reducing agent, cloquintoset mexil or mefenpildiethyl, and the phytotoxicity-mitigating agent mixture, cloquintoset mexil + mefenpildiethyl, on wheat was investigated. The efficacy of the PPO inhibitor herbicide in the presence of the phytotoxicity reducing agent or the phytotoxicity reducing agent mixture was also investigated. To investigate the phytotoxicity-reducing effect of phytotoxicity-reducing agents or phytotoxicity-reducing agents, cloquintoset mexil (7.5% w / w) and mefenpildiethyl (3.39% w / w) were applied together with herbicides. bottom. Calfentrazone ethyl was applied at 25 or 50 g ai / ha and furciasetmethyl was applied at 5.6 or 11.2 g ai / ha. The application ratio of the phytotoxicity reducing agent was 6.61 g ai / ha for cloquintoset mexil and 27 g ai / ha for mefenpildiethyl. All treatments (single treatment, tank mix, premix) were applied to the crop seedling stage (10 days after planting). Calfentrazone ethyl or fluthiasetmethyl was applied alone or in combination with a phytotoxicity-mitigating agent or a phytotoxicity-mitigating agent mixture.

The phytotoxicity to wheat was evaluated by the above-mentioned visual evaluation method. Wheat phytotoxicity rate (%) was assessed based on bronzing, bleaching, and necrosis on wheat leaves by PPO inhibitors. These are typical symptoms of PPO inhibitors in susceptible plants (bronzing, bleaching, and necrosis).

All studies compared each treatment with carfentrazone ethyl alone. The data in the above table and other tables show that the level of phytotoxicity to wheat decreases with the addition of one or more phytotoxicity mitigating agents. Specifically, in 3DAT (Day after treatment, the number of days after treatment), the phytotoxicity of 25 g ai / ha of carfentrazone ethyl to wheat is 34%, but compared to this (one or more types). ) The phytotoxicity caused by carfentrazone ethyl applied together with the phytotoxicity reducing agent (eg, cloquintoset mexil + mefenpildiethyl) was less than 10%.

Regardless of the proportion of carfentrazone ethyl, the phytotoxicity to wheat in the presence of the phytotoxicant (s) was less than 12%, except for naphthalic anhydride alone. .. With naphthalic anhydride alone, the phytotoxicity was greater than 25% at 3DAT. Carfentrazone ethyl alone produced 34% and 43% phytotoxicity at 25g and 50g, respectively (Tables 2 and 3).

(Example 3)

The above results show that both varieties in the presence of cloquintoset mexil + mefenpildiethyl or croquintoset mexil alone, regardless of the proportion of carfentrazone ethyl and the evaluation interval (3DAT and 7DAT). It is shown that the phytotoxicity of (Jagger and Yellowstone) to wheat was 13% or less (Table 4).

Similar results were seen with the premix of calfentrazone ethyl + cloquintoset mexil. When mefenpildiethyl was applied with 50 g of carfentrazone ethyl in a tank mix or premix, more than 20% of phytotoxicity occurred in both cultivars (Table 4). The phytotoxicity of both varieties by carfentrazone ethyl in the absence of the phytotoxicity reducing agent was 25 g or 50 g,> 35% or> 40%, respectively.

The weed control rate (%) was also determined by the same method as the above-mentioned evaluation system of 0 to 100%. The rating system is reprinted below for ease of reference. The same weed control evaluation system can be found in "Research Methods in Weed Science" (2nd edition, edited by B. Truelove, published by Southern Weed Science Science, Auburn University, Auburn, Alabama, 1977).

The control rate of velvet leaf and morning glory was 100% at 7 DAT for all treatments (Table 6).

(Example 4)

In both tests (1 and 2) shown in Table 7, furciase methyl applied alone caused phytotoxicity to the Yellowstone variety of wheat in both proportions (≧ 10%). Jager wheat was safe when furciset methyl alone was applied at 5.6 g ai / ha (≤10% phytotoxicity). In Test 1, Yellowstone (1) and Jugger were successful at 14 DAT when fluthiasetmethyl was applied alone or in combination with a phytotoxicant. In Test 1, Velvet Reef and Morning Glory were controlled in all cases (data omitted). In Test 2, Yellowstone (2) was safe at 14 DAT when fluthiaset methyl was applied at 5.6 or 11.2 g with cloquintoset mexil plus mefenpil diethyl applied as a tank mix. rice field. When 5.6 g of furciasetmethyl was applied with any of the phytotoxicity mitigating agents, Yellowstone was safe at 14 DAT.

Those skilled in the art will also describe the invention for each element or subgroup of elements of a Markush group or other group where features or embodiments of the invention are described in Markush format or other ways of summarizing options. You can understand.

Unless otherwise inconsistent, all numerical ranges described herein include all combinations and subcombinations in the ranges contained therein and all of the individual integers. Such a range is also included in the scope of the present invention.

Although the inventions described herein are described with reference to specific embodiments, it should be understood that these embodiments are merely exemplary of the principles and uses of the invention. Therefore, it should be understood that various modifications can be made to the exemplary embodiment and that other configurations can be realized without departing from the spirit and scope of the invention described in the claims.

[Additional Notes]
[Appendix 1]
A method for selectively controlling weeds in a crop, which comprises applying an effective amount of a herbicide containing a fast-acting herbicide and an effective amount of a pesticide composition to a crop weed.

[Appendix 2]
The phytotoxicity reducing agent composition includes cloquintoset mexil, mefenpyrdiethyl, benoxalol, dichlormid, isoxadiphenethyl, cyprosulfamide, fenchlorim, fenchlorazoleethyl, fluxophenim, naphthalic anhydride, siometrinyl, and the like. The method according to Appendix 1, which comprises one or more phytotoxicity reducing agents selected from the group consisting of oxabetrinyl, flurazol, frylazole, dimulon, cumyllon, dimepiperate, and dietrate.

[Appendix 3]
The method according to Appendix 1, wherein the fast-acting herbicide is selected from the group consisting of a protoporphyrinogen oxidase (PPO) inhibitor, diquat, paraquat, glufosinate ammonium, bialaphos, or a mixture thereof.

[Appendix 4]
The method according to Appendix 1, wherein an effective amount of the herbicide composition containing a protoporphyrinogen oxidase (PPO) inhibitor and an effective amount of the phytotoxicity reducing agent composition are applied to the crop weeds.

[Appendix 5]
The method according to Appendix 4, wherein the phytotoxicity reducing agent composition contains cloquintoset mexil, mefenpildiethyl, or a mixture thereof.

[Appendix 6]
The protoporphyrinogen oxidase inhibitor is selected from the group consisting of calfentrazone, calfentrazone ethyl, sulfentrazone, fluthiasetmethyl, saflufenacyl, and a mixture of two or more thereof, Appendix 4. The method described in.

[Appendix 7]
The weeds include thistles, thistles, thistles, common water hemps, velvet leaves, morning glory species, thistles, thistles, thistles, thistles, thistles, thistles, thistles, thistles, thistles, thistles, thistles, thistles. Gunbainazuna, common mellow, honagaaogateu, american biyu, haribyu, sparde anonda, yaemgra, onamomi, carbazakurosou, takasaburo, white thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle , Nazuna, Russian plant, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle. Modoki, thistle (wild pointsettia), thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, witchgrass, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle, thistle The method according to Appendix 4, which is selected from the group consisting of thistles, thistles, thistles, annual thistles, and spiny thistles.

[Appendix 8]
The method according to Appendix 4, wherein the crop is selected from the group consisting of genetically engineered or non-genetically engineered shiva, wheat, barley, corn, rice, sorghum, embuck, and triticale.

[Appendix 9]
The method according to Appendix 4, wherein the weed control is effective for at least 14 days after the treatment.

[Appendix 10]
The method according to Appendix 4, wherein the protoporphyrinogen oxidase (PPO) inhibitor and the phytotoxicity reducing agent are applied simultaneously, individually or continuously.

[Appendix 11]
The phytotoxicity reducing agent and the protoporphyrinogen oxidase (PPO) inhibitor are applied in a weight ratio of about 10: 1 (pharmaceutical damage reducing agent: herbicide) to about 1:30 (phytotoxicity reducing agent: herbicide). , The method according to Appendix 4.

[Appendix 12]
The method according to Appendix 4, wherein the protoporphyrinogen oxidase (PPO) inhibitor is applied at a rate of about 5 g ai / ha to about 420 g ai / ha.

[Appendix 13]
The method according to Appendix 4, wherein the phytotoxicity reducing agent is applied at a ratio of about 5 g ai / ha to about 350 g ai / ha.

[Appendix 14]
A preparation containing a protoporphyrinogen oxidase (PPO) inhibitor herbicide and a phytotoxicity-reducing agent composition containing cloquintoset mexil, mefenpil diethyl, or a mixture thereof.

[Appendix 15]
The protoporphyrinogen oxidase (PPO) inhibitor is selected from the group consisting of calfentrazone, calfentrazone ethyl, sulfentrazone, fluthiasetmethyl, saflufenacyl, and a mixture of two or more thereof. The preparation according to Appendix 14.

[Appendix 16]
It comprises combining a herbicidal composition containing a protoporphyrinogen oxidase (PPO) inhibitor with a composition containing a phytotoxicity reducing agent containing cloquintoset mexil, mephenpyrdiethyl, or a mixture thereof. , A method for producing a pharmaceutical product for selectively controlling weeds in crops.

Claims (1)

A method for selectively controlling weeds in a crop, which comprises applying an effective amount of a herbicide containing a fast-acting herbicide and an effective amount of a pesticide composition to a crop weed.