FR2984685A1 - Protecting corn against pests e.g. Agriotes subspecies, comprises forming a groove on a cropland, seeding corn into the groove, applying granules containing clothianidin as active agent into the groove and closing the groove - Google Patents

Abstract

Protecting corn comprises forming a groove on a cropland, seeding corn into the groove, applying granules containing clothianidin as active agent into the groove, and closing the groove. ACTIVITY : Plant Protectant; Pesticide. MECHANISM OF ACTION : None given.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a method for protecting maize. Description of the Related Art As a method for protecting corn, various prior processes which have been practiced are known. 10 Prior art literature Non-patent literature Non-patent literature 1: Handbook of Corn Insects. ISBN: 0-938522-76-0, 1999. Entomological Society of America. SUMMARY OF THE INVENTION In maize cultivation, with the increase in world demand for cereals, various efforts have been made to increase yield but, like yield reduction due to pests or weeds. is important, it has been asked for an excellent process to protect corn. The present inventors have conducted studies to find an excellent method for protecting corn and, as a result, have found that a method for protecting maize, comprising the following steps: A) forming a groove on a soil cultivation, B) inoculation of corn kernels in the furrow, C) application of pellets containing clothianidin as an active agent, and D) furrow closure, is an excellent method of protection that can suppress damage to the furrow. corn due to pests. This discovery led to the realization of the present invention. That is, the present invention consists of the following: [1] A method for protecting maize comprising the following steps: A) forming a groove on cropland, B) seeding corn kernels in the furrow, C) application to the groove of pellets containing clothianidin as an active agent, and D) closing of the groove. [2] The method for protecting maize according to [1], wherein the groove is a groove having a depth of 1 to 10 cm. [3] The method for protecting corn according to [1] or [2], wherein the groove is a groove formed with a disk groove tracer. [4] The method for protecting corn according to any one of [1] to [3], wherein the step of seeding maize kernels in the groove is a step of seeding corn kernels in the groove using a pneumatic seeder. [5] The process for protecting corn according to any one of [1] to [4], wherein, in the step of applying pellets containing clothianidin as an active agent, the amount of clothianidin in the soil between the soil surface and a depth of 10 cm on the center line of the groove treated with the granules, over a period from immediately after application to 4 weeks after application, is 80% by weight or more in relation to the amount of clothianidin between the soil surface and a depth of 15 cm. [6] The method for protecting corn according to any of [1] to [4], wherein, in the step of applying clothianidin-containing granules as the active agent, the amount of clothianidin present in the soil between the soil surface and a depth of 10 cm on the center line of the groove treated with the granules, for 2 weeks after application to 4 weeks after application, is 80% by weight or more by in relation to the amount of clothianidin between the soil surface and a depth of 15 cm. [7] The method for protecting corn according to any one of [1] to [6], wherein, in the step of applying clothianidin-containing granules as an active agent, the concentration of clothianidin in the soil between the soil surface and a depth of 15 cm at a location 10 cm from the center line of the peat trench treated with the pellet over a period from immediately after application to 4 weeks after application , is 1/5 or less in relation to the clothianidin concentration in soil between the soil surface and a depth of 15 cm on the centerline. [8] The method for protecting corn according to any one of [1] to [6], wherein, in the step of applying clothianidin-containing granules as an active agent, the concentration of clothianidin in the soil between the soil surface and a depth of 15 cm at a location 10 cm from the center line of the groove treated with the granules, for 2 weeks after application to 4 weeks after application, is 1 / 5 or less in relation to the clothianidin concentration in the soil between the soil surface and a depth of cm on the centerline. [9] The method for protecting corn according to any one of [1] to [8], wherein, in the step of applying pellets containing clothianidin as an active agent, the applied amount of the active agent at the time of application is 5 to 300 g per hectare of cropland where corn kernels are planted. [10] The method for protecting corn according to any one of [1] to [9], wherein the clothianidin-containing granules as an active agent have a concentration of the active agent of 0.01 to 10% by weight. [11] The method for protecting corn according to any one of [1] to [10], wherein one or more types of pests, selected from Agriotes spp., Diabrotica spp., Agrotis spp. and Rhopalosiphum spp., are controlled. [12] The method for protecting corn according to any of [1] to [11], wherein the corn is a hybrid variety corn. [13] The process for protecting corn according to any one of [1] to [12], wherein the corn kernels are corn kernels treated with one or more fungicides selected from the group consisting of fludioxonil, metalaxyl, metalaxyl-M, thiuram, triticonazole, carboxin, prochioraz, prothioconazole, sedaxane, penflufen, fluxapyroxad, trifloxystrobin, pyraclostrobin and difenoconazole. [14] The method for protecting corn according to any one of [1] to [13], which further comprises a step of applying one or more types of herbicides selected from the group consisting of mesotrione, nicosulfuron, S-metolachlor, acetochlor, terbuthylazine, sulcotrione, isoxaflutole, bromoxynil, dicamba, foramsulfuron, dimethenamid-P, rimsulfuron, bentazone, glyphosate, tembotrione, pendimethalin, flufenacet, fluroxypyr, pethoxamid, flumioxazin, thiencarbazone-methyl, and iodosulfuron-methyl sodium salt on cultivated soil, before or after the inoculation step of corn kernels in the furrow. [15] The process of any one of [1] to [14], wherein corn kernels treated with one or more safeners selected from the group consisting of isoxadifen-ethyl, flurilazole, dichlomid, Benoxacor and cyprosulfonamide are used in the seeding step. [16] The process of any one of [1] to [14], wherein one or more safeners selected from the group consisting of isoxadifen-ethyl, flurilazole, dichlomid, benoxacor and cyprosulfamide are applied. in the groove before, during or after the application of pellets containing clothianidin as an active agent. [17] The process of any one of [1] to [14], wherein one or more safeners selected from the group consisting of isoxadifen-ethyl, flurilazole, dichlomid, benoxacor and cyprosulfamide are applied to cropland prior to the furrow-forming step on cropland or after furrow closure. As the present invention makes it possible to suppress corn damage caused by pests, it is useful as a method for protecting corn. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Clothianidin-containing granules as an active agent used in the present invention (hereinafter referred to in some cases as "the present clothianidin granules") will be described first. The present clothianidin granules are obtained by mixing clothianidin and an inert solid carrier and, if necessary, adding other formulation additives. Clothianidin is a known compound, and is described, for example, in The Pesticide Manual, 15th edition (published by BCPC); ISBN 978-1-901396-18-8, p. 229. This compound is obtained from A formulated product commercially available, or is obtained by production by means of a known method Examples of the inert solid carrier used in formulating into a preparation include natural or synthetic minerals such as clay, kaolin talc, bentonite, sericite, sulfur, activated carbon, calcium carbonate, diatomaceous earth, quartz, pumice, calcite, sepiolite, dolomite, olivine, pyroxene, amphibole, feldspar, silica, alumina, vermiculite, and perlite, and the fine grains of an elastomer, a plastic, a ceramic, a metal, sawdust, stalks of corn, coconut shells, tobacco stems, and the like. It is a mineral-derived particulate material, and examples of the mineral include quartz, pumice, calcite, sepiolite, dolomite, olivine, pyroxene, amphibole, and feldspar. As a carrier, silica sand containing quartz as the main component is readily available and is particularly preferable. Examples of the other formulation additives for a preparation include a surfactant, a stabilizer, an antiseptic, and a colorant. Examples of the surfactant include nonionic surfactants, cationic surfactants, anionic surfactants and amphoteric surfactants, and only one or two types or more are used. Examples of the surfactant include an alkylsulfuric acid ester salt, an alkylsulfonic acid salt, an alkylarylsulfonic acid salt, alkylarylethers and their polyoxyethylenated compounds, polyethylene glycol ethers, polyethylene glycol fatty acid esters, polyol esters, a sugar alcohol derivative and a silicone-based surfactant. Examples of the dye include red pigments, blue pigments, green pigments and yellow pigments, and more specifically monazole red, cyanine green, Prussian blue, and Brilliant Blue blue. When the dye is added, it is easy to confirm granules at the time of application of the granules or after application of the granules, and thus this is preferable. The present clothianidin granules may further contain wheat flour, corn kernel powder, casein, gelatin, petrolatum, lanolin, lard, saccharides (starch gum arabic, cellulose derivatives such as methylcellulose, alginic acid, etc.), a lignin derivative, synthetic polymers soluble in water (polyvinyl alcohol, polyvinylpyrrolidone, polyacrylic acid, etc.), PAP (isopropyl phosphate), BHT (2,6-di-tert-butyl-4-methylphenol), BHA (2-tert-butyl-4-methoxyphenol) and 3-tert-butyl-4-methoxyphenol. ), a vegetable oil, a mineral oil, a fatty acid, a fatty acid ester, and the like. The present clothianidin granules may be in a form such as fine granules, macrogranules, or microgranules, by changing their particle size. The clothianidin content of the present clothianidin granules (hereinafter referred to as "the amount of the present active agent in some cases) is usually 0.01 to 10% by weight, preferably 0.1 to 5% by weight. A) by weight, more preferably from 0.2 to 2% by weight The content of the inert solid carrier of the present clothianidin granules is usually from 10 to 99.99% by weight, preferably from 40 to 99.8% by weight. When the present clothianidin granules contain a surfactant, the content thereof is usually from 1 to 20% by weight, preferably from 1 to 15% by weight, The method for protecting the corn will be described. The process for protecting the corn of the present invention comprises the following steps: A) formation of a groove on cultivated soil, B) inoculation of corn kernels in the furrow, C) application to the pellet furrow. containing clothianidin as an age In step A) of forming a groove on cultivated soil, a groove having a V-shaped cross section is formed linearly on the cultivated soil. Usually, after step A) of forming a groove on a cultivated soil, step B) of seeding maize grains in the groove and step C) of application to the groove of granules containing clothianidin as an active agent. Then, after the step B) of seeding corn kernels in the groove, the step C) of application to the groove containing clothianidin granules as active agent can be carried out, or, after In step C) for application to the groove containing clothianidin granules as an active agent, the step B) of seeding maize grains in the groove can be carried out. Usually, after step B) of corn seed seeding in the furrow and the application step C) of pellets containing clothianidin as active agent have been carried out, the furrow is covered of soil, and the step D) of closing the groove is performed. In the present invention, usually, a seed drill is used which is pulled by a tractor. Examples of the planter include the composite seed drills in which are incorporated a slicer portion to form a groove, a sowing portion for sowing seeds in the groove in the manner of a quick hitch via a pipe from a grain filled hopper, an agricultural chemical application part for applying an agricultural chemical such as granules in a groove in the manner of a quick hitch via a pipe from a hopper filled with the agricultural chemical, a furrow closing portion for covering the soil furrow to close the furrow, and the like. The slicer portion of the seed drill is usually attached to a front portion of the seed drill, and forms a furrow on cropland with the movement of the tractor. Examples of the slicer portion include a plow groove tracer and a disc groove tracer, and a disc slicer system is preferred using a disc groove tracer having a high cutting force for cutting the crop residues, having a small reduction in the cutting force due to soil adhesion, which can stabilize the furrow depth, because uniform seeding in a furrow and uniform application of the agricultural chemical in the furrow becomes possible thanks to stabilization the depth of the furrow, and the effect of the agricultural chemical is stabilized. The depth of the furrow formed in a cropland can be appropriately changed depending on the soil condition at the location of the corn crop, the condition of the corn that is subsequently grown, and the weather conditions, and it is usually 1 to 10 cm, preferably 2 to 8 cm, more preferably 2 to 6 cm. The seeder portion of the drill is usually attached to the rear of the slicer, and plants grain in a groove with the tractor movement. Examples of the sowing part include a mechanical seeder and a pneumatic sowing machine, and a pneumatic sowing machine using pressurized air is preferred because grain plugging or seeding leaks are reduced, and thus the beans. are stably planted, and the kernels can be planted in a furrow in an orderly fashion. Examples of the pneumatic seed drill include a vacuum suction type seed drill and a blow-up type seed drill, and a vacuum suction type seed drill is preferred because it causes little grain damage.

The present clothianidin granules in the present invention are usually applied as is without dilution. The amount of application of the active agent at the time of application can be appropriately changed depending on subsequent corn growing conditions and atmospheric conditions, and is usually 5 to 300 g, preferably 10 to 10 g. at 150 g per hectare of cultivated land where corn kernels are planted. In the present invention, the present clothianidin granules are applied in the vicinity of corn kernels. Clothianidin is appropriately adsorbed on the soil, and thus the majority of applied clothianidin is present in the soil between the soil surface and a depth of 10 cm on the center line of the pellet-treated furrow, which is the position of in other words, in the vicinity of the maize roots, even when a few weeks have elapsed after application of the present clothianidin granules. For this reason, pest-susceptible seeds or early-stage maize can be effectively protected from pests. The amount of clothianidin present in the soil between the soil surface and a depth of 10 cm is usually 50% by weight or more, preferably 80% by weight or more, based on the amount of clothianidin between the surface of the soil. ground and a depth of 15 cm. In the present invention, the present clothianidin granules are applied in the vicinity of corn kernels. Clothianidin is suitably adsorbed on the soil, and thus remains at the position where the granules have been applied, even when a few weeks have elapsed after application of the present clothianidin, and little clothianidin has moved between the surface of the soil and a depth of 15 cm at a location remote from the position at which the granules were applied, i.e., a location 10 cm away from the center line of the groove treated with the granules. For this reason, highly susceptible kernels or early growth maize can be effectively protected from pests. The clothianidin concentration in the soil between the soil surface and a depth of 15 cm at a location 10 cm from the center line of the pellet trench is usually half or less, preferably one-fifth or less. , the concentration of clothianidin in soil between the soil surface and a depth of 15 cm on the central line. The furrow closing portion which covers a furrow with soil to close the furrow is usually made of rubber or made of cast iron, has a wheel shape, and covers the furrow with soil to close the furrow with tractor movement. . Examples of pests that can be controlled with the present invention include pests belonging to Argiotes spp., Diabrotica spp., Agrotis spp., Myzus spp., Aphis spp., Ostrinia spp., Zyginidia spp., Sesamia spp. , Oscinella spp., Sitobion spp., Scutigerella spp., Astylus spp., Rhopalosiphum spp., Metopolophium spp., Melanotus spp. and Melolontha spp., and Agriotes spp., Diabrotica spp., Agrotis spp. and Rhopalosiphum spp. The corn variety used in the present invention is not particularly limited, but a hybrid variety is preferred. A hybrid variety is a first cross obtained by mating two varieties of different strains, and generally has more excellent characteristics than those of both parents.

Corn may be a but to which resistance has been conferred by a genetic engineering technique or a crossbreeding process. The corn kernels used in the present invention are preferably treated with a fungicide, and examples of the fungicide include fludioxonil, metalaxyl, metalaxyl-M, thiuram, triticonazole, carboxin, prochloraz, prothioconazole, sedaxane, penflufen, fluxapyroxad, trifloxystrobin, pyraclostrobin and difenoconazole, of which fludioxonil, metalaxyl-M, thiuram, triticonazole, sedaxane, penflufen and fluxapyroxad are preferred, and fludioxonil is more preferred. , metalaxyl-M and thiuram. Corn kernels are used after being treated with one or more types of these fungicides. Alternatively, commercially available treated grains can be purchased and used.

It is preferable to apply a herbicide to cropland before or after seeding corn to suppress weed generation during the corn growing season, and examples of the herbicide include mesotrione, nicosulfuron, Smetolachlor, acetochlor, terbuthylazine, sulcotrione, isoxaflutole, bromoxynil, dicamba, foramsulfuron, dimethenamid-P, rimsulfuron, bentazone, glyphosate, tembotrione, pendimethalin, flufenacet, fluroxypyr , pethoxamid, flumioxazine, thiencarbazone-methyl, sodium salt of iodosulfuron methyl, prosulfuron, topramezone, metosulam, cycloxydim, aclonifen, dimethenamid, florasulam, clopyralid, flazasulfuron, imazamox MCPA, 2,4-D, linuron, propisochlor, thifensulfuron methyl, and tritosulfuron; preferably mesotrione, nicosulfuron, S-metolachlor, acetochlor, terbuthylazine, sulcotrione, isoxaflutole, bromoxynil, dicamba, foramsulfuron, dimethenamid-P, rimsulfuron, bentazone, glyphosate, tembotrione, pendimethalin, flufenacet, fluroxypyr, pethoxamid, flumioxazine, thiencarbazone-methyl, iodosulfuronmethyl sodium salt, prosulfuron, topramezone, metosulam, cycloxydim and aclonifen; more preferably mesotrione, nicosulfuron, S-metolachlor, acetochlor, terbuthylazine, sulcotrione, isoxaflutole, bromoxynil, dicamba, foramsulfuron, dimethenamid-P, rimsulfuron, bentazone, glyphosate, tembotrione, pendimethalin, flufenacet, fluroxypyr, pethoxamid, flumioxazine, thiencarbazone-methyl, sodium salt of iodosulfuron-methyl. One or more types of these herbicides are usually applied. When two or more types are applied, they can be applied simultaneously, or they can be applied separately. When applied separately, they can be applied the same day, or different days. In the present invention, the herbicide can be applied in combination with one or more safeners. If necessary, the herbicide can be mixed with the safener. Examples of the safener include isoxadifen-ethyl, flurilazole, dichlomid, benoxacor and cyprosulfamide. The method of application of the safener is not limited. For example, the safener can be applied before or after step C), and the safener can be applied with clothianidin-containing granules in step C). In the latter process, the pellets containing both clothianidin and safener can be applied to the furrow, or the safener and the clothianidin containing granules can be applied to the furrow in combination. Also, the safener can be applied before step A) or after step D). In addition, corn kernels treated with the safener can be applied in step B). In the application, the corn kernels can be treated with the safener and then the treated kernels can be used, or commercially available kernel-treated kernels can be used. Examples The present invention will now be further described by the following examples, but the present invention is not limited to these examples. EXAMPLE 1 Using a pneumatic seed drill mounted with a pelletizing machine (disk slicing method, model name: MONOSEM NG + 3, manufactured by Monosem), grooves are formed in a cultivated soil each having a depth of 5 cm from the surface of the soil, linearly at intervals of 80 cm, and a predetermined quantity of the present clothianidin granules (active agent concentration: 0.7% by weight) is applied to the grooves, then Maize kernels are planted in the grooves (Zea Mays, registered trademark: DKC5276, a hybrid variety manufactured by Monsanto), and the furrows are covered with soil to close the furrows. For the present clothianidin granules, a section is formed where clothianidin is applied in an amount of 50 g / ha and a section where clothianidin is applied in an amount of 80 g / ha. Corn kernels are planted at 14 cm intervals. The seeding density of corn kernels is 89285 grains / ha. Thirteen days after application of the present clothianidin granules, in order to suppress the generation of weeds, the entire cultivated soil is treated simultaneously with a formulation of nicosulfuron SC (containing 40 g / l active agent, trademark: Milagro, manufactured by Syngenta), a sulcotrione SC formulation (containing 300 g / I active agent, trademark: Mikado, manufactured by Bayer CropScience), and a dicamba SL formulation (containing 480 g / I active agent, registered trademark : Banvel 4S, manufactured by Syngenta), which are each a herbicide, at 1.5 1 / ha, 1.5 1 / ha and 0.6 1 / ha, respectively (the amount of the active agent applied is 60 g / ha, 450 g / ha and 288 g / ha). Two weeks and four weeks after application of the present clothianidin granules, a transplanting soil sampler (model DIK-110B Eijkelkamp, manufactured by Daiki Rika Kogyo Co., Ltd.) is used to soil the soil on the center line of the groove in to which the granules were applied, in a cylindrical form having a diameter of 3.5 cm and a depth of 20 cm, and the clothianidin contained in the cored sol by liquid chromatography / mass spectrometry / mass spectrometry (LC / SM / SM) depending on the depth. 30 Distribution of clothianidin (%) = [(amount of clothianidin contained in soil in the analyzed range) / (amount of clothianidin contained in the depth range of 0 cm to 15 cm)] x 100 The results are presented in Table 1. Table 1 Example Amount of clothianidin distribution (%) of applied clothianidin test (g / ha) Depth After 2 After 4 (cm) weeks weeks 1 50 0 to 10 99.7 99.9 to 0.3 0.280 80 to 99.2 98.6 10 to 0.8 1.4 Example 2 Using a pneumatic seeder mounted with a pelletizing machine (disk slicing method) , model name: MONOSEM NG + 3, manufactured by Monosem), furrows each 5 cm deep from the soil surface, linearly at intervals of 80 cm, are formed in a cultivated soil and applied to the furrows. a predetermined amount of the present clothianidin granules (active agent concentration: 0.7% weight), then corn kernels are planted in the grooves (Zea Mays, trade mark: DKC5276; hybrid variety manufactured by Monsanto), and the furrows are covered with soil to close the furrows. For the present clothianidin granules, a section is formed where clothianidin is applied in an amount of 50 g / ha and a section where clothianidin is applied in an amount of 80 g / ha. Corn kernels are planted at 14 cm intervals. The seeding density of corn kernels is 89285 grains / ha. Thirteen days after application of the present clothianidin granules, in order to suppress the generation of weeds, all the cultivated soil is treated simultaneously with a formulation of nicosulfuron SC (containing 40 g / l of active agent, trademark: Milagro, manufactured by Syngenta), a sulcotrione SC formulation (containing 300 g / I active agent, trademark: Mikado, manufactured by Bayer CropScience), and a dicamba SL formulation (containing 480 g / I active agent, trademark: Banvel 4S, manufactured by Syngenta), which are each a herbicide, at 1.5 1 / ha, 1.5 1 / ha and 0.6 1 / ha, respectively (the applied amount of the active agent is 60 g / ha, 450 g / ha and 288 g / ha).

Two weeks and four weeks after application of the present clothianidin granules, a transplanting soil sampler (DIK-110B Eijkelkamp model, manufactured by Daiki Rika Kogyo Co., Ltd.) was used to soil soil on the center line of the groove in which the granules were applied, or the soil at a position 10 cm away from the center line of the groove, in a cylindrical shape having a diameter of 3.5 cm and a depth of 20 cm, and the concentration of clothianidin was analyzed contained in the soil between the soil surface and a depth of 15 cm, among the soil that has been cored, by liquid chromatography / mass spectrometry / mass spectrometry (LC / MS / MS) as a function of depth, respectively. The proportion of the clothianidin concentration at a position 10 cm from the groove is then calculated from the clothianidin concentration at the center of the groove to which the present clothianidin granules have been applied.

The results are shown in Table 2. Table 2 Example Proportion of clothianidin concentration in the clothianidin soil test between the soil surface and a depth of 15 cm applied at a location 10 cm distant from the line (g / ha) plume center treated with clothianidin granules, versus clothianidin concentration in soil between soil surface and 15 cm depth on center line (%) After 2 weeks after 4 weeks 3 50 0 , 2 0.3 4 80 0.2 0.3 Example 3 Using a pneumatic seeder mounted with a pelletizing machine (disk slicing method, model name: MONOSEM NG + 3, manufactured by Monosem), trenches at a depth of 2.5 cm from the soil surface, at 80 cm intervals, the interior of each groove is treated with a predetermined quantity of clothianidin granules (using 0.7 %), then we plant in the same grooves of corn kernels (Zea Mays, trade mark: DKC5276; hybrid variety manufactured by Monsanto), and the furrows closed. For clothianidin granules, a treated section is formed where clothianidin is applied in an amount of 30 g / ha, a treated section where clothianidin is applied in an amount of 40 g / ha, and a section with treatment where clothianidin is applied in an amount of 50 g / ha. For comparison purposes, a non-treated section is provided where corn kernels are planted without treatment with clothianidin granules. In each section, four locations are formed by a randomized block process, so that each site is 38.4 m2 (12 mx 3.2 m, including the seeding furrow having a length of 12 m x 4 rows). Corn kernels are planted at 14 cm intervals. The seeding density of corn kernels is 90000 grains / ha. Twenty-five days after treatment with the clothianidin granules, in order to suppress the generation of weeds, all the cultivated soil is treated simultaneously with a formulation of nicosulfuron SC (containing 40 g / l of active agent, registered trademark: Milagro, manufactured by Syngenta) and a sulcotrione SC formulation (containing 300 g / I of active agent, trademark: Mikado, manufactured by Bayer CropScience), which are each a herbicide, at 1.5 1 / ha and 1, 5 1 / ha, respectively. Thirty-nine days after treatment with the clothianidin granules, all the cultivated soil is treated simultaneously with the nicosulfuron formulation SC (containing 40 g / I active agent, registered trademark: Milagro, manufactured by Syngenta) and a dicamba formulation. SL (containing 480 g / I active agent, registered trademark: Banvel 4S, manufactured by Syngenta), which are each a herbicide, at 1.5 L / ha and 1.5 L / ha, respectively. Seventy-six days after treatment with the clothianidin granules, for each section with treatment, use as study section two respective central rows (over a length of 10 m, excluding one meter at each of the two ends of the grooves). seeding, respectively) seeded locations, the number of maize plants damaged by Agriotes lineatus at 4 locations is studied, the rate of plants damaged by the following equation is calculated and, in addition, the rate is obtained. average of damaged plants for the four study sections. Rate of damaged plants (%) = [(number of damaged maize plants) / (number of maize plants planted)] x 100 The results are shown in Table 3. Table 3 Test example Quantity of clothianidin Plant rate applied (g / ha) damaged (%) 5 30 4.52 6 40 5.38 7 50 5.38 No treatment 0 12.5 Example 4 Using a pneumatic seeder mounted with a pelletizing machine (method of disc slicing, model name: MONOSEM NG + 3, manufactured by Monosem), furrows are formed at a depth of 2.5 cm from the ground surface, at 80 cm intervals, the interior of each groove with a predetermined amount of clothianidin granules (using 0.7% granules), then maize grains are planted in the same grooves (Zea Mays, registered trademark: DKC5276, hybrid variety manufactured by Monsanto), and we close the furrows. For clothianidin granules, a treated section is formed where clothianidin is applied in an amount of 30 g / ha, a treated section where clothianidin is applied in an amount of 40 g / ha, and a section with treatment. where clothianidin is applied in an amount of 50 g / ha. For comparison purposes, a non-treated section is provided where corn kernels are planted without treatment with clothianidin granules. In each section, four locations are formed by a randomized block process so that each site is 38.4 m 2 (12 mx 3.2 m, including the seed furrow having a length of 12 mx 4 rows). . Corn kernels are planted at 14 cm intervals. The seeding density of corn kernels is 90000 grains / ha. On the same day as the day of treatment with clothianidin granules, in order to suppress the generation of weeds, all the cultivated soil is treated with an acetochlor SC formulation (containing 36.7% of active agent). , registered trademark: Harness Microtech, 5 manufactured by Monsanto) at 5 11h. Twenty-five days after treatment with the clothianidin granules, all the cultivated soil is treated simultaneously with a herbicide, a formulation of dicamba SL (containing 480 g / I of active agent, registered trademark: Banvel 4S, manufactured by Syngenta), at a rate of 0.6 1 / ha. Twenty-seven days after treatment with the clothianidin granules, for each section with treatment, two respective central rows (over a length of 10 m, excluding one meter at each of the two ends of the furrows) were used as the study section. seeding, respectively) of seeded sites, the number of maize plants damaged by Agriotes lineatus at 4 locations is studied, the rate of seedlings damaged by the following equation is calculated and, in addition, the average damaged plants for the four study sections. Rate of damaged plants (%) = [(number of damaged maize plants) / (number of maize plants planted)] x 100 The results are shown in Table 4. Table 4 Test example Quantity of clothianidin Plant rate applied (g / ha) damaged (%) 8 1.23 9 40 1.95 10 50 1.40 No treatment 0 10.9 Example 5 Ampfos NP (Registered Trade Mark) (N / P) was applied / K = 15/52/0) and Urea N (registered trademark) (N / P / K = 46/0/0), each of which is a fertilizer, on the soil surface of a cropped soil. 100 kg / ha and 260 kg / ha respectively, and the cultivated land is plowed.

Twenty-four days after fertilization, using a pneumatic seeder mounted with a granular processing machine, furrows are formed at a depth of 5 cm from the soil surface, at intervals of 75 cm, the interior is treated each furrow with a predetermined amount of 1.0% clothianidin granules, then corn kernels (Zea Mays, variety name: DKC5143, hybrid variety manufactured by Monsanto) are planted in the same furrows, and the furrows are closed . For clothianidin granules, a treated section is formed where clothianidin is applied in an amount of 80 g / ha and a treated section where clothianidin is applied in an amount of 110 g / ha. For comparison purposes, a non-treated section is provided where corn kernels are planted without treatment with clothianidin granules. In each section, four sites are formed by a complete randomized block process, so that each site is 45 m2 (15m x 3m, including the seed furrow having a length of 15m x 4 rows). As corn kernels, grains treated with a mixed agent of metalaxyl-M and fludioxonil (trademark: Maxim XL, manufactured by Syngenta) are used, which are planted at 20 cm intervals. The seeding density of corn kernels is 66667 grains / ha. Seventeen days after treatment with the clothianidin granules, for each section with treatment, two respective central rows are used as the study section, and the number of germinated seedlings is studied at four locations. On the same day, in order to suppress the generation of weeds, all the cultivated soil is treated simultaneously with a formulation of nicosulfuron SC (containing 40 g / l of active agent, registered trademark: Milagro, manufactured by Syngenta) and a formulation of mesotrione SC (containing 100 g / I of active agent, registered trademark: Callisto, manufactured by Syngenta), which are each a herbicide, at a rate of 0.75 l / ha and 0.25 l / ha respectively. One hundred and sixty-five days after treatment with the clothianidin granules, for each section with treatment, two respective central rows of the seeded sites are used as the study section, and the number of corn plants that have shed due to the damage is studied. by Diabrotica virgifera virgifera and Agriotes lineatus at 2 9846 85 19 four locations, the rate of lodging is calculated by the following equation, and in addition, the average lodging rate of the four study sections is obtained. Pour rate (%) = [(number of maize plants poured) / 5 (number of germinated seedlings)] x 100 The results are shown in Table 5. Table 5 Test example Amount of clothianidin applied Rate of lodging (g / ha) (%) 11 80 6 12 110 4 No treatment 0 23 Example 6 10 An NPK fertilizer (N / P / K = 15/15/15) is applied to the soil surface of a soil. cultivated land at the rate of 300 kg / ha, and the cultivated land is plowed. In order to prevent the generation of fertilized weeds, 28 days after fertilization, all the cultivated soil is treated with a mixed agent (water-dispersible granules, trademark: MaisTer, manufactured by Bayer CropScience) of foramsulfuron and salt. sodium iodosulfuron-methyl, which are each a herbicide, containing a safener, isoxadifen-ethyl, in an amount of 0.15 kg / ha. Three days after application of the herbicide, using a pneumatic seeder mounted with a pelletizing machine, furrows are formed at a depth of 5 cm from the soil surface at 75 cm intervals, treated the inside of each groove with a predetermined amount of 1.0% clothianidin granules, then corn kernels (variety name: DKC5143, hybrid variety manufactured by Monsanto) are planted in the same grooves, and the furrows. For clothianidin granules, a treated section is formed where clothianidin is applied in an amount of 80 g / ha and a treated section where clothianidin is applied in an amount of 110 g / ha. For comparison purposes, a no-treatment section is provided where corn kernels are planted without treatment with clothianidin granules. In each section, four sites are formed by a complete randomized block process, so that each site is 45 m2 (15m x 3m, including the seed furrow having a length of 15m x 4 rows). As corn kernels, grains treated with a mixed agent of metalaxyl-M and fludioxonil (trademark: Maxim XL, manufactured by Syngenta) are used, which are planted at 20 cm intervals. The seeding density of corn kernels is 66667 grains / ha. Eighteen days after treatment with the clothianidin granules, for each section with treatment, two respective central rows of seeded sites are used as the study section, and the number of germinated seedlings is studied at four locations. One hundred and fifty-five days after treatment with the clothianidin granules, for each section with treatment, two respective central rows of the seeded sites are used as the study section, and the number of maize plants which shed due to the damage is studied. by Diabrotica virgifera virgifera and Agriotes lineatus at four locations, the rate of lodging is calculated by the following equation and, in addition, the average lodging rate of the four study sections 20 is obtained. Pour rate (%) = [(number of seeded corn plants) / (number of germinated seedlings)] x 100 The results are shown in Table 6. Table 6 Test example Amount of clothianidin applied vers (g / ha) (%) 13 80 4 14 110 0 No treatment 0 36 25 Example 7 An NPK fertilizer (N / P / K = 15/15/15) is applied to the soil surface of a soil grown at a rate of 300 kg / ha, and the cultivated land is plowed. 2 9846 85 21 In order to prevent the generation of fertilized weeds, 7 days after fertilization, a mixed liquid containing thiéncarbazone-methyl, isoxaflutole and cyprosulfamide is applied to the soil surface of all cropland. 150 I / ha, the applied doses of thiencarbazone-methyl, isoxaflutole and cyprosulfamide being respectively 9.2 g / ha, 23 g / ha and 15 g / ha. Twenty-one days after fertilization, using a pneumatic sowing machine (disk tracer) mounted with a motor sprayer, furrows are formed at a depth of 5 cm from the soil surface at intervals of 5 cm. 75 cm, and corn kernels are planted in the grooves (Zea Mays, hybrid variety). Corn kernels are treated with thiuram and planted at 20 cm intervals. Corn kernels are sown at 70,000 grains / ha. After inoculation, granules containing 1.0% by weight of clothianidin in an amount of clothianidin of 50 g / ha are applied to the grooves and the grooves are then closed with the soil on the side of the grooves. This land is called the section with treatment. For comparative purposes, the same steps as in the section with treatment are carried out, except that no pellets containing clothianidin are applied. This land is called the untreated section. In each section, four locations are formed by a complete randomized block process so that they are 45 m2 (15 mx 3 m).

Seventeen days after application of the clothianidin granules, for the section with treatment and the section without treatment, two respective central rows of seeded sites are used as the study section, and the number of plants is studied in four locations. of germinated corn.

One hundred and sixty-five days after application of the clothianidin-containing granules, for the section with treatment and the section without treatment, two respective central rows of seeded sites are used as the study section, and the number of maize plants is studied. who have paid for damage by Diabrotica virgifera virgifera and Agriotes lineatus in four locations, the rate of pay is calculated using the following equation, and in addition, the average lodging rate of the four study sections is obtained. Pour rate (%) = [(number of maize plants poured) / (number of germinated seedlings)] x 100 As a result, in the section with treatment, compared to the untreated section, a rate is observed of lower lodging, and the suppression of pest damage to maize is confirmed. Example 8 An NPK fertilizer (N / P / K = 15/15/15) is applied to the soil surface of a cropland at a rate of 300 kg / ha, and the cultivated soil is plowed. In order to prevent the generation of fertilized weeds, 7 days after fertilization, a mixed liquid containing thiencarbazone-methyl and isoxaflutole, at the rate of 150 l / ha, is applied to the soil surface of all the cultivated soil. , the applied doses of thiéncarbazone-methyl and isoxaflutole being respectively 9.2 g / ha and 23 g / ha. Twenty-one days after fertilization, using a pneumatic seeder (disc tracer) mounted with a motorized sprayer, furrows are formed at a depth of 5 cm from the soil surface at intervals of 5 cm. 75 cm, and corn kernels are planted in the grooves (Zea Mays, hybrid variety). Corn kernels are treated with thiuram and cyprosulfamide and planted at 20 cm intervals. The 25 corn kernels are sown at 70,000 grains / ha. After seeding, granules containing 1.0 wt.% Clothianidin are applied to the furrows in an amount of clothianidin of 50 g / ha, and the furrows are then closed with the soil on the side of the furrows. This land is called the section with treatment. For comparative purposes, the same steps as in the section with treatment are carried out except that clothianidin-containing granules are not applied. This land is called the untreated section.

In each section, four locations are formed by a complete randomized block process so that they are 45 m2 (15 mx 3 m). Seventeen days after application of the clothianidin granules, for the section with treatment and the section without treatment, two respective central rows of seeded sites are used as the study section, and the number of plants is studied in four locations. of germinated corn. One hundred and sixty-five days after application of the clothianidin-containing granules, for the section with treatment and the section without treatment, two respective central rows of seeded sites are used as the study section, and the number of maize plants is studied. who have paid for damage by Diabrotica virgifera virgifera and Agriotes lineatus in four locations, the rate of pay is calculated using the following equation, and in addition, the average lodging rate of the four study sections is obtained. Pour rate (%) = [(number of maize plants poured) / (number of germinated seedlings)] x 100 As a result, in the section with treatment, compared to the untreated section, a rate is observed of lower lodging, and the suppression of pest damage to maize is confirmed. Example 9 An NPK fertilizer (N / P / K = 15/15/15) is applied to the soil surface of a cropland at a rate of 300 kg / ha, and the cultivated soil is plowed. In order to prevent the generation of fertilized weeds, 28 days after fertilization, all the cultivated soil is treated with a mixed agent containing foramsulfuron, sodium salt of iodosulfuron-methyl and isoxadifen-ethyl (dispersible granules). water, trademark: MaisTer, manufactured by Bayer CropScience), in an amount of 0.15 kg / ha. Three days after application, using a pneumatic sowing machine (disk tracer) mounted with a motorized sprayer, furrows are formed at a depth of 5 cm from the soil surface at intervals of 75 cm. plant in furrows of corn kernels (hybrid variety DKC5143 produced by Monsanto Co.). The corn kernels were treated with a mixed agent of metalaxyl-M and fludioxonil (trademark: Maxim XL, manufactured by Syngenta), and planted at 20 cm intervals. Corn kernels are sown at 66,667 grains / ha.

After seeding, granules containing 1.0 wt.% Clothianidin are applied to the furrows in an amount of clothianidin of 50 g / ha, and the furrows are then closed with the soil on the side of the furrows. This land is called the section with treatment. For comparative purposes, the same steps as in the section with treatment are carried out, except that no pellets containing clothianidin are applied. This land is called the untreated section. In each section, four locations are formed by a complete randomized block method so that they are 45 m 2 (15 m × 3 m). Eighteen days after application of the clothianidin-containing granules, for the section with treatment and the section without treatment, two respective central rows of seeded sites were used as the study section, and the number of locations was studied at four locations. germinated seedlings. One hundred and fifty-five days after application of the clothianidin-containing granules, for the section with treatment and the section without treatment, two respective central rows of seeded sites were used as the study section, and the number of 25 seedlings was studied. As a result of the damage done by Diabrotica virgifera virgifera and Agriotes lineatus in four locations, the rate of lodging is calculated using the following equation, and the average lodging rate of the four study sections is obtained. Pour rate (%) = [(number of maize plants poured) / 30 (number of germinated seedlings)] x 100 As a result, in the section with treatment, compared to the untreated section, we observe a lower lodging rate, and the removal of pest damage to maize is confirmed.

Claims (17)

REVENDICATIONS1. Method for protecting maize comprising the steps CLAIMS1. Method for protecting maize comprising the following steps: A) formation of a furrow on cultivated soil, B) inoculation of corn kernels in the furrow, C) application to the groove of pellets containing clothianidin as an active agent , and D) furrow closure. 10 The method of protecting corn according to claim 1, wherein the groove is a groove having a depth of 1 to 10 cm. The method of protecting maize according to claim 1 or 2, wherein the groove is a groove formed with a disc groove tracer. A process for protecting maize according to any one of claims 1 to 3, wherein the step of seeding corn kernels in the groove is a step of seeding corn kernels in the groove using a seed drill. pneumatic. A process for protecting maize according to any one of claims 1 to 4, wherein in the step of applying clothianidin-containing granules as an active agent, the amount of clothianidin present in the soil. between the soil surface and a depth of 10 cm on the center line of the groove treated with the granules, over a period from immediately after application to 4 weeks after application, is 80% by weight or more by in relation to the amount of clothianidin between the soil surface and a depth of 15 cm. 30 A method for protecting maize according to any of claims 1 to 4, wherein in the step of applying clothianidin-containing granules as an active agent, the amount of clothianidin present in the soil between the soil surface and a depth of 10 cm on the center line of the groove treated with the granules, 2 weeks after application at 4 weeks after application, is 80% by weight or more by in relation to the amount of clothianidin between the soil surface and a depth of 15 cm. A process for protecting maize according to any of claims 1 to 6, wherein in the step of applying clothianidin-containing granules as an active agent, the clothianidin concentration in the soil between the soil surface and a depth of 15 cm at a location 10 cm from the center line of the groove treated with the granules, over a period from immediately after application to 4 weeks after application, is 1 / 5 or less in relation to the clothianidin concentration in the soil between the soil surface and a depth of 15 cm on the center line. A process for protecting maize according to any one of claims 1 to 6, wherein in the step of applying clothianidin-containing granules as an active agent, the clothianidin concentration in the soil between the soil surface and a depth of 15 cm at a location 10 cm from the center line of the groove treated with the granules, for 2 weeks after application at 4 weeks after application, is 1/5 or less per relation to the clothianidin concentration in soil between the soil surface and a depth of 15 cm on the central line. A process for protecting maize according to any one of claims 1 to 8, wherein, in the step of applying clothianidin-containing granules as an active agent, the applied amount of the active agent to the time of application is 5 to 300 g per hectare of cultivated land where corn kernels are planted. The process for protecting maize according to any one of claims 1 to 9, wherein the clothianidin-containing granules as an active agent have a concentration of the active agent of 0.01 to 10% by weight. 35 A process for protecting maize according to any one of claims 1 to 10, wherein one or more types of pests, selected from Agriotes spp., Diabrotica spp., Agrotis spp. and Rhopalosiphum spp., are controlled. A method for protecting maize according to any one of claims 1 to 11, wherein the maize is a hybrid variety maize. 10 A process for protecting maize according to any of claims 1 to 12, wherein the corn kernels are corn kernels treated with one or more fungicides selected from the group consisting of fludioxonil, metalaxyl, metalaxyl, M, thiuram, triticonazole, carboxin, prochloraz, prothioconazole, sedaxane, penflufen, fluxapyroxad, trifloxystrobin, pyraclostrobin and difenoconazole. The method for protecting maize according to any one of claims 1 to 13, which further comprises a step of applying one or more types of herbicides selected from the group consisting of mesotrione, nicosulfuron, S-metolachlor, acetochlor, terbuthylazine, sulcotrione, isoxaflutole, bromoxynil, dicamba, foramsulfuron, dimethenamid-P, rimsulfuron, bentazone, glyphosate, tembotrione, pendimethalin, flufenacet, fluroxypyr, pethoxamid, flumioxazin, thiencarbazone-methyl and iodosulfuron-methyl sodium salt on cultivated soil, before or after the corn seed seeding step in the furrow. 15. A process according to any one of claims 1 to 14, wherein corn kernels treated with one or more safeners selected from the group consisting of isoxadifen-ethyl, flurilazole, dichlomid, benoxacor and cyprosulfamide. are used in the seeding step. The method according to any one of claims 1 to 14, wherein one or more safeners selected from the group consisting of isoxadifen-ethyl, flurilazole, dichlomid, benoxacor and cyprosulfamide are applied to the groove before, during or after application of the pellets containing clothianidin as an active agent. The method according to any one of claims 1 to 14, wherein one or more safeners selected from the group consisting of isoxadifen-ethyl, flurilazole, dichlomid, benoxacor and cyprosulfamide are applied to the cropland before the step of forming a furrow on the cultivated soil or after the closure of the furrow.