FR2979187A1 - Composition in the form of e.g. granules, useful to protect crops e.g. seeds against insects during their culture, comprises pyrethrum compound, and active compound consisting of e.g. neonicotinoids, avermectin, sinusoide and limonoid - Google Patents

Abstract

Composition in the form of granules or microgranules, comprises pyrethrum compound, and an active compound consisting of neonicotinoids, chloronicotinyl, sinusoide, pyridine azomethine, pyridinecarboxamide, limonoid, avermectin and organophosphate. ACTIVITY : Plant Protectant; Insecticide. MECHANISM OF ACTION : None given.

Description

The present invention relates to the field of agriculture, and more particularly to a new insecticidal composition based on pyrethrum and at least one compound chosen from neonicotinoids, chloronicotinils, spinosoids, pyridineazomethrins, pyridine-carboxamides and limonoids. , organophosphorus, avermectins, more particularly such an insecticidal composition in the form of granules or microgranules. By granule and microgranulate according to the invention, it is understood any form of granulate and microgranulate, in particular, as defined in the phytosanitary index ACTA (2010 edition, ACTA publications). Preferably, the invention is directed to microgranules (MG) and granules (GR). The term pesticide, derived from the English word pest ("pests"), refers to substances or preparations used for the prevention, control or elimination of organisms considered to be undesirable, be they plants, animals or animals. , fungi or bacteria. In common parlance the term pesticide is generally associated with agricultural use of these substances, but the generic term also includes domestic, urban, road ... In this text, the term pesticide refers to the active substance as well. that is to say, responsible for the intended action, that the composition containing the active substance and sold to the user. In the field of agriculture, they are called plant protection products (or phytosanitary products). There are three main categories: herbicides (to control weeds), fungicides (to control fungi) and insecticides (to control insects). Other products exist with action on rodents (rodenticides), snails and slugs (molluscicides).

The widespread use of pesticides has followed the progress of mineral chemistry. In the nineteenth century, fungicidal treatments are based on copper sulphate (the famous Bordeaux mixture) or mercury; insecticides such as copper arsenite, copper acetoarsenite and arsenate of lead are also emerging. Secondly, pesticides greatly benefit from the development of organic chemistry even before the war 39-45; then especially after. It is at this time that a large number of organic compounds appear. The use of these products has undergone a very strong development in past decades, making them almost indispensable for most agricultural practices, regardless of the level of economic development of the countries. From 1945 to 1985, pesticide consumption doubled every ten years.

Of the pesticides, insecticides are active substances or preparations with the property of killing insects, their larvae and / or their eggs. The generic term insecticide also includes pesticides intended to control arthropods that are not insects (eg mites, spiders or ticks) as well as repellents. While pesticides have been an enormous advance in the control of food resources and the improvement of public health (especially in the fight against insects, vectors of disease), the flip side has appeared rapidly with resistance phenomena. in insects, sex changes in some amphibians and reproductive difficulties in some invertebrates. Contamination by pesticides has been detected in all compartments of the environment: in the waters of rivers and groundwater, in the air and in rainwater. They are also found in fruits, vegetables, cereals and products of animal origin (eggs, milk, meat, fish ..). They exist in their initial form but they can also be degraded, one speaks about residues or metabolites Thus, although the insecticides were adopted, it remains that they cause many concerns because in particular environmental problems related to their employment abusive. In most countries, the sale and use of insecticides is subject to prior authorization (approval or marketing authorization) from the competent national authority. There is therefore a real constant need for more effective and less harmful active ingredients, in more effective formulations, or in methods of application optimizing the "contact" of the pesticide with the plant and / or the pest.

Currently, there are around 100 000 commercial specialties authorized for sale worldwide, made up of around 800 different active ingredients. 15 to 20 new active ingredients are added every year The main types of formulation of these pesticides are: + Solid presentations: - wettable powders (WP): the active ingredient is finely ground (solid) or fixed ( liquid) on an adsorbent or porous support (silica). Surfactants (dodecylbenzene sulphonate, Ca, Al or Na lignosulphonate) and dilution charges (kaolin, talc, chalk, aluminum silicate and magnesium or Ca carbonate) are added as well as antiredeposition agents, anti- static or anti-foam. Stabilizers (anti-oxygen and pH buffer) are included to make them compatible with other preparations. These powders must be dispersed in water at the time of use; granules to be dispersed (WG): granules obtained by agglomeration with a little water, active material, filler and binding and dispersing agents, followed by drying. These granules must be dispersed in water at the time of use; - microgranules (MG) and granules (GR): microgranules and granules obtained by the agglomeration of active material, filler and binding agents and dispersants, followed by drying. Granules and microgranules are formulated for dry use and are ready for use. They are calibrated and have a uniform size to allow regular spreading of the active ingredient. The charge is a mineral charge; The invention is very particularly intended for this type of formulation. granules-baits (GB): granules obtained by the agglomeration of active material, filler and binding and dispersing agents, followed by drying. The bait granules are formulated ready for use. They are calibrated and have a uniform size to allow regular spreading of the active ingredient. The load is a flour (wheat, durum wheat, etc ...). + Liquid presentations: - soluble concentrates (SL): it is a solution of active ingredient to be diluted in water, added surfactants; concentrated suspensions (SC): solid, water-insoluble active substances are kept in concentrated suspension in water, in the presence of wetting agents, dispersants, thickeners (xanthan gum, bentonite, silica) or anti-redeposition agent, antifreeze (ethylene glycol, urea) antifoamants and sometimes bactericidal (1,2-Benzisothiazol-3 (2H) -one, methanal or formaldehyde). These preparations are diluted in water at the time of use; emulsifiable concentrates (EC): the active ingredients are placed in concentrated solution in an organic solvent and added with emulsifiers responsible for stabilizing the emulsions obtained at the time of use by dilution in water; concentrated emulsions (EW): the active ingredient is dissolved in an organic solvent. The added solution of emulsifying agents is dispersed in a large amount of water. This presentation is less toxic and less flammable than emulsifiable concentrates. It is diluted in water at the time of use. Pesticides can be sold as powders or concentrates to be diluted with water, aerosol, granules or bait. They are applied in different ways; they may be sprayed from an aircraft or a tractor-drawn spray, dissolved in irrigation water, buried in the ground, scattered in pellets or pellets on the ground near the plants, applied as a treatment of seeds, inserted into the collar of cattle or presented in the form of baits. In general, the pesticides used include only one active ingredient. In the context of the present invention, a mixture of at least two active ingredients is used. Indeed, unexpectedly, the Applicant has shown that a composition in the form of granules or microgranules based on at least one pyrethrum compound and at least one other compound selected from neonicotinoids (thiamethoxam, clothianidin, acetamiprid, thiacloprid), chloronicotinils (imidacloprid), spinosoids (spinosad, spymetoram), pyridine-azomethrins (pymetrozine), pyridine-carboxamides (flonicamid), limonoids (azadiractin) avermectins (abamectin) and organophosphorus compounds (chlorpyrifos-ethyl and chlorpyrifos-methyl) have numerous advantages, among which in particular, allowing a decrease in the amount of compound used chosen from said other compounds (Neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethines, pyridinecarboxamides, limonoids, avermectins, organophosphorus compounds), to achieve a desired effect at least equivalent to that obtained with pesticides comprising only one active ingredient. Thus, the subject of the present invention is a novel insecticidal composition in the form of granules or microgranules which may comprise at least one pyrethrum compound and at least one other active compound chosen from neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridinecarboxamides, limonoids, avermectins and organophosphorus compounds. Advantageously, the subject of the invention is an insecticidal composition in the form of granules or microgranules which may comprise at least one pyrethrum compound and at least one other active compound chosen from neonicotinoids (thiamethoxam, clothianidin, acetamiprid, thiacloprid). , chloronicotinils (imidacloprid), spinosoids (spinosad, spimetoram), pyridine-azomethrins (pymetrozine), pyridine-carboxamides (flonicamid), limonoids (azadiractin), avermectins 35 (the abamectin) and organophosphorus compounds (chlorpyrifos-ethyl and chlorpyrifos-methyl). Thereafter, unless otherwise stated, the term pyrethrum refers to pyrethrum per se, pyrethrins and / or pyrethroids, whether natural or synthetic, and all their isomers or mixtures of isomers. Pyrethrum, or pyrethrum of Dalmatia is a perennial herb of the family Asteraceae (Compounds). It is a species native to southeastern Europe (Croatia, Montenegro, Albania). It is a perennial plant 40 to 60 cm high, growing in tufts with many stems each carrying a terminal capitulum. It has been widely spread by culture, especially in Europe (Italy, Spain), Japan, North Africa, Kenya, Rwanda. This plant is grown for its flowers from which an insecticidal powder is drawn.

The term "pyrethrum per se" refers to the powder made of dried chrysanthemum flowers while the term "pyrethrin (s)" refers to the six insecticidal compounds naturally contained in this powder and well known to those skilled in the art. These six pyrethrins make up 0.9 to 1.3% of the dried flowers. Commercially, we generally try to purify pyrethrins. After a first extraction, refining to remove resins, waxes and allergens is performed. The extract is then used in the preparation of various insecticide products. This complex industrial process optimizes product efficiency. Additives can be added to increase the effectiveness of pyrethrum, or surfactants, or antioxidants. In addition to these natural insecticidal compounds, there is a whole chemistry of synthetic pyrethroids, inexpensive and very effective. Pyrethroids are one of the few families of insecticidal compounds whose use is still allowed on the market, especially to protect seeds. Synthetic pyrethroids are so-called "third generation" insecticides, they are derived from natural pyrethrins, seeking to increase their toxicity and photostability. Endowed with a considerable toxicity and acting by contact, they almost instantaneously kill insects by neurotoxic shock effect, allowing to use them at very reduced doses (10 to 40 g of active ingredient per ha). They kill the insect by blocking the functioning of sodium channels essential for the transmission of nerve impulses. Notorious for their low toxicity to humans, they are given the safety factor (the ratio of toxicities for insects and mammals) that is the highest among chemical insecticides. Very biodegradable, they do not persist in the edaphic environment, but these compounds are toxic to certain aquatic organisms and to agricultural auxiliaries, such as bees. Examples of synthetic pyrethroids are: acrinathrin, bifenthrin, bioresmethrin, alphametrine, deltamethrin, depallethrin, etofenprox, fenpropathrin, cypermethrin, fenvalerate, esfenvalerate, cyfluthrin, betacyfluthrin, betacypermethrin, tralomethrin, fluvalinate, tau-fluvalinate, permethrin, lambda-cyhalothrin, flucythrinate, tefluthrin, zetacypermethrin. Neonicotinoids are a class of insecticides acting on the central nervous system of insects, with lower toxicity in mammals. Neonicotinoids are among the most widely used insecticides worldwide, but recently the use of certain insecticides of this class has been regulated in some countries because of their toxicity to bee colonies. According to the invention, the neonicotinoids which may be used include thiamethoxam, clothianidin imidacloprid, acetamiprid, dinotefuran, imidacloprid, nitenpyram, thiacloprid. According to the invention, examples of chloronicotinils are acetamiprid, imidacloprid, thiacloprid, clothianidin, thiamethoxam and preferably thiamethoxam or acetamiprid. Spinosoids are fermented products derived from the mixture of two toxins (Spinosyn A and D) secreted by a bacterium living in the soil, Saccharopolyspora spinosa. The spinosoids used according to the invention may be spinosad or spinetoram and preferably spinetoram. The pyridine-azomethrins whose insecticidal activity is based on an inhibitory action of food intake in the nervous system of the insects according to the invention can be in particular pyrimetrozine. Pyridine carboxamides whose mode of action does not rely on the nervous system of the insect but blocks the intake of food according to the invention may be for example flonicamid. Limonoids with a secondary metabolite present in the oil extracted from the seeds of Azadirachta indica (also called neem) that may be used in the context of the invention may be, for example, azadirachtin. The avermectins isolated from the fermentation of Streptomyces avermitilis according to the invention include, in particular, abamectin. Organophosphorus compounds are insecticides that belong to the chemical family of anticholinesterase inhibitors. They are esters of phosphoric acid. They enter the plant and either have a surface action and are not carried in the plant, a systemic effect and spread in the plant. At the level of the insect, organophosphorus penetration can be by contact, digestion or inhalation. The action of organophosphorus on insects is neurotoxic by their anticholinesterase effect. Examples of organophosphorus compounds that can be used according to the invention are Azamethiphos, Azinphos-ethyl, Azinphos-methyl, ethyl-carbophenothion, Chlorfenvinphos, Chlormephos, Ethyl Chlorpyrifos, Methyl-Chlorpyrifos, Coumaphos. , Methyl sulfone demethon, Diazinon, Dichlorvos, Dimethoate, Disulfoton, Ethion (= diethion), Ethoprophos, Fenitrothion, Fenthion, Fonofos, Isophenphos, Malathion, Methacriphos, Methidathion, Mevinphos, Omethoate, Oxydemeton-methyl, Methyl-Paraoxon, Parathion, Ethyl-Parathion, Methyl-Parathion, Phenthoate, Phosalone, Phosphamidon, Phoxime, Profenophos, Propetamphos, Pyrazophos, ethylPyrimiphos, methyl-Pyrimiphos, Quinalphos, Sulfotep, Vamidothion, preferentially ethyl-Chlorpyrifos or methyl-Chlorpyrifos.

Advantageously according to the invention, the composition according to the invention may comprise, in addition to pyrethrum, as another active ingredient, one or more compounds chosen from neonicotinoids, chloronicotinils, spinosoids, pyridineazomethrins, pyridine-carboxamides, limonoids, avermectins, and organophosphorus compounds.

Advantageously, among the compounds belonging to the families of neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine-carboxamides, limonoids, avermectins, and organophosphorus compounds, the composition according to the invention may advantageously comprise clothianidin. Optionally, according to the invention, the composition may further comprise one or more other pesticidal compounds. Preferably according to the invention, the composition may advantageously comprise cypermethrin and / or natural pyrethrum, and clothianidin. According to the invention, when the composition is in the form of microgranules, these may have a size of between 0.1 and 1 mm in diameter, preferably between 0.25 and 0.8 mm. According to the invention, when the composition is in the form of granules, they may have a size of between 0.1 and 6 mm in diameter, preferably between 0.25 and 5 mm. The apparent density of the granules and microgranules is important because it conditions the good spreading of these. Thus the granule and the micropellet according to the invention may have an apparent density of between 1 and 2, preferably between 1.35 and 1.65. By apparent density is meant the ratio between the weight of the sample and the volume of said sample (da = PN). (YORO G. and GODO G., ORSTOM, Ser.Pedol., Vol XXV, No. 4, 1989-1990: 423-429).

The number of grains per gram of granules and microgranules is important because it determines the effectiveness of these. In fact, the higher the number of grains per gram of the granules and microgranules, the greater the chances of contact between the granules / microgranules and the pest, and therefore the better the efficiency of the granules / microgranules. The granules and / or microgranules according to the invention may have a number of grains per gram of between 1500 and 4000, preferably between 2200 and 3400. According to the invention, the application dose of the compositions may vary depending on the compound used. . By way of example, according to the invention, when the active ingredient comprises Persian pyrethrum, the amount of pyrethrum used in the composition may be in a proportion corresponding to between 2 and 5 g / kg, and very preferably between 3 and 4 g / kg. The composition may comprise one of the compounds selected from the following compounds: neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine-carboxamide, limonoids, avermectins, in a proportion of between 3 g / kg and 6 g / kg, preferably between 2 g / kg and 4 g / kg. According to the invention, the composition may comprise an organophosphorus compound in a proportion of between 6 g / kg and 30 g / kg, preferably between 4 g / kg. and 20 g / kg. According to the invention, the composition may be used at a dose ranging from 2 to 20 kg / ha, preferably from 9 to 15 kg / ha, and very preferably from 12 kg / ha. According to the invention, the mineral filler may be chosen from calcium carbonate, clays and sand. Those skilled in the art will readily understand that the granule / microgranulate according to the invention may further comprise any other compound usually used in this industry (anti-mold agents, bittering agents, repellents, lubricating agents, palatability agents, etc.). .). It is also possible to add to the granule / microgranulate according to the invention other adjuvants such as a bittering agent, for example denatonium benzoate or an olfactory repelling agent (in order to avoid ingestion of the granules by animals). It is also possible to add preservatives to the granule / microgranulate according to the invention to prevent the development of undesirable contaminants and / or pathogens that can be generated by the combination of moisture and organic matter, such as, for example, the formation of molds. In this respect, mention may be made, for example, of salicylic acid or dinitrophenol. Advantageously according to the invention, it will be possible to use salicylic acid. As is conventional in this field, the granule / microgranulate according to the invention may further comprise a dye that the skilled person will choose according to its constraints among the dyes usually used. By way of example, it is possible to mention the Hostaperm Blue B2G-KR from Clariant, which is a blue dye advantageously used because the birds do not distinguish very badly this color which makes it possible to avoid that they are too much attracted by the microgranule. The amounts of additional adjuvants added to the composition of the granule / microgranulate according to the invention are conventional in the field considered and the skilled person will have no trouble adjusting them according to the constraints he may encounter. The insecticidal composition in the form of granules or microgranules may comprise at least one pyrethrum compound and at least one other active compound chosen from neonicotinoids, chloronicotinils, spinosoids, pyridineazomethrins, pyridine-carboxamides, limonoids, avermectins and Organophosphorus compounds may be prepared by any method known from the prior art. In particular, the processes described in international applications PCT / FR2009 / 000770 and PCT / FR2009 / 000771, published on January 21, 2010 under numbers W0 / 2010/007239 and WO / 2010/007240 respectively. The composition according to the invention can be applied to crops by any means and in any form of spreading known to those skilled in the art, in or on the soil. By spreading in or on the soil it is understood all the known techniques, particularly the application using a microgranulator.

According to one form of the invention, the spreading method will be buried in the soil. Indeed the Applicant has shown a significant increase in the effectiveness of the composition in the form of granules or microgranules for seed protection. In particular, the use in landfill provides a barrier around the seed preventing pests from reaching it. Thus, the active ingredient is in the best conditions because it is close to the seed and can prevent its biochemical target from reaching the seed. For this purpose we increase their chances of contact with the target pest through the formation of this barrier. Unexpectedly, the Applicant has in fact found that the effect of a composition according to the invention was greatly increased when it is applied to burial over the entire width of the seed line in which the seed is placed, which it it is a furrow culture or a ridge crop. When applied, the granules or micro-granules are a barrier to soil insects, which can less easily attack and denature the seed, as well as the buried part of the plant, once the seed has germinated and the seedling has begun to grow. . A superior effect of the composition in the form of granules or microgranules according to the invention is thus obtained thanks to this mode of use, in comparison with a conventional means of application. This technique is described in application FR2932954. The use in burial of micro-granules according to the invention over the entire width of the line of the seedling is advantageous because the product, present in the soil all around the seed, can have an effect all around the seed. Thus applied, the effectiveness of the products is increased over liquid formulations. Another advantage is that it can thus reduce the doses of the product applied, and consequently reduce their toxicity, both for the environment and for the person who applies the product. Thus the invention also relates to the use of a composition in the form of granules or microgranules comprising at least pyrethrum and at least one compound selected from neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine carboxamides, limonoids, avermectins, organophosphates in soil burial. In a preferred form, the invention relates to the above-mentioned use in a method of protecting a soil insect furrow culture which comprises the following steps: a) furrowing into the soil; b) the seed is placed in the soil in the bottom of the seedling line formed by the furrow; C) the composition is spread over the entire width of the seed line in which the seed has been placed; and d) closing the furrow with the soil prepared in step c). Alternatively, the second and third steps of the process may be reversed. According to yet another variant, the second and third steps may be simultaneous. Thus three orders of application are possible. Either the seed is planted, then the composition is applied, the reverse. Another possibility is the simultaneous application of the seed and the composition. Preferably, the composition is deposited first and then the seed.

According to the method, during the creation of the groove, an excavation in the form of a half cylinder is formed in the ground. The application of the composition on the entire surface of the excavation, before or after or at the time of the removal of the seed, allows, when closing the furrow, to create an insecticidal barrier all around the seed, this one. it is embedded in a network of insecticide, which protects it from soil insects that can not reach it. The invention is also applicable in billon crops. In this case, the composition is applied to a surface of the soil greater than the surface occupied by the seed, before or after or at the time of removal of the seed, and when the ridge is formed, the seed is enclosed in the seed. soil mixed with the insecticidal composition, all around it, which effectively protects it against soil pests. The seed is thus completely surrounded by the formulation comprising the active ingredient. The invention also relates to a method for protecting a log crop against soil insects which comprises the following steps: a) placing the seed on the ground, b) depositing the composition on a surface equivalent to the most large circumference occupied by the seed, c) forming a ridge by covering the seed placed in a) with the earth prepared in the previous step.

Alternatively, the first and second steps of the logging process may be reversed. According to another variant, the first and the second step of the cultivation method in billon can be simultaneous. Preferably according to the invention, the composition is first deposited, then the seed.

The present invention therefore relates to a method for the protection of seeds which has the following advantages: - the composition in the form of granules or microgranules are well distributed in the line of the seedling over the entire profile of the groove. Thus during the closing of the furrow or the creation of the ridge, the active compound is distributed all around the seed. The seed is thus protected against insects from the soil. These are more difficult to reach the seed. - The use of the burial composition according to the invention is more effective closer to the seed, without being on the seed. The method according to the invention therefore optimizes the protection of the seed without having the disadvantages of the coated seeds. It is understandable that the insecticide barrier, it kills a significant amount of soil insects wanting to reach the seed. Due to this increased efficacy of the insecticide compared to the usual modes of application, the method is particularly advantageous in that it allows the use of lower doses of active product. the method according to the invention protects the seed, but also the parts buried in the soil of the plant resulting from the germination of the seed, a gain in yield is thus obtained for the farmer because less seeds are damaged; . the efficacy of the product has been shown by the inventors to be increased during the implementation of the method according to the invention, compared with a conventional method. the method according to the invention is, moreover, easy and quick to implement. the insecticide dispersion is also limited in the environment. In fact, the method of application of the insecticide does not cause any propagation or pollution on the soil surface, which avoids contaminating animals other than animals living in the soil. The invention also relates to the use of a composition in the form of granules or microgranules according to the invention, embedded in the ground, comprising at least pyrethrum and at least one compound chosen from neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethines, pyridine-carboxamide, azadirectines, organophosphorus compounds. By burial in full in a parcel of soil, it is understood a burial on all the surface of this parcel of ground as well as in the ground, to a depth between 0,5 and 50 cm, advantageously between 1 and 15 cm . This method of burying the insecticidal composition in the form of granules or microgranules may have an insecticidal effect on all the insects present in the soil, whether or not close to the culture zone. Thus, the crop protection method of the present invention aims at a substantial reduction in the number of insects throughout the part of the soil in which the insecticidal composition is present, that is to say from the soil surface to the soil. at a depth of between 0.5 and 50 cm, advantageously between 1 and 15 cm on the treated parcel according to the invention.

By this burial technique, the active ingredient is in the best conditions to best exert its effect, because it is as close to the seed or the plant as it is remote, which makes it possible to increase the probability of an insect encountering a granulated or an insecticide microgranule rather than a seed. It is defined as a volume encompassing the growing area in which the insects will be mostly killed by the insecticide with regard to the individuals present in this area at the time of application of the insecticide, or will not be able to enter the area. this area, because of the insecticide present. So treated soil will be somehow "sterilized". Throughout the treated area, the amount of live insects will be reduced. According to the invention, the use by burial in the ground comprises at least the following steps: i. applying the insecticidal composition in the form of a composition as described above over the entire surface of a parcel of land; ii. the insecticidal composition is incorporated in the soil over the entire surface of the parcel and at a depth of between 0.5 and 50 cm, advantageously between 1 and 15 cm. iii. we proceed to the cultivation. By using this method a parcel is obtained in which the insecticidal composition is present on and in the soil at any point of the parcel, mainly in the soil, this up to a mixed soil depth. According to a first variant of the invention, step a) of the process can be carried out before step b). According to another variant of the invention, step a) can be performed simultaneously with step b). According to the invention, the use that is the subject of the invention may be carried out before culturing, in a period ranging from 5 to 1 day before culturing, preferably between 2 and 1 day. Thus, at the time of planting, the amount of soil insects will have decreased in the treated soil area, and the risk of seed or plant damage by soil insects is reduced. In addition, during cultivation, the soil can be mixed again by the same process of cultivation, which can contribute even more to mixing the solid insecticide in the soil. According to yet another variant of the invention, steps a), b) and c) can be performed simultaneously. Whatever the variant used, the cultivation can be carried out in furrow or billon.

In furrow we mean a trench dug in the ground. The characteristics of the furrow are those usually used in agriculture, and vary according to the seeds used, which the farmer will be able to adapt. According to the method, during the creation of the groove, an excavation in the form of a half-cylinder is formed in the ground. During this excavation, as well as during the closing of the groove, the surface of the soil in which the composition in the form of granules or microgranules has been applied is mixed again, which again contributes to forming a superficial zone in which the insecticide is present homogeneously throughout the area. Thus all the seeds or plants are surrounded by an insecticidal barrier, which barrier is also present between two seeds or two plants, unlike the burial method of the prior art. The insecticidal barrier is present all around the seed or plant, which is then surrounded by a network of insecticide, which protects them from soil insects that can not reach them without coming into contact with a granule or microgranule. The invention is also applicable in billon crops. In this case, when the ridge is formed, the seed or plant is enclosed in soil mixed with insecticidal composition, all around, which effectively protects them against soil pests. The seed or plant is thus completely surrounded by the composition comprising the active ingredient. The present invention thus relates to a method of protecting crops by burial in the soil of an insecticidal composition in the form of a granule or a microgranule which has the following advantages: the use of an insecticidal composition taking the form of form of a granule or a microgranule burial according to the invention is more effective than known uses, because the composition is ubiquitous throughout an area of the soil. It is understood that the barrier insecticide, which kills a large quantity of soil insects already present in the area or wants to penetrate this superficial zone, one thus obtains a zone almost "sterile", that is to say without insects from the soil, insects that can not reach the seeds or plants. At the time of cultivation, the overall population of soil insects being reduced, attacks by insects from the soil once the cultivation is carried out are thus limited. - A yield gain is thus obtained for the farmer because fewer seeds or plants are damaged. - the seeds or plants are protected, but also the parts buried in the soil of the plant already present or resulting from the germination of the seed, the landfill and landfill uses are applicable to any agricultural crop ( cereals, market garden plants, horticultural plants, etc.). It is understood that the seeds and then the plant resulting from the seed, are protected by the process according to the invention. Preferably, the use is for corn, rapeseed, sorghum, sunflower, potato, beet, carrot, cereal, cabbage, bean, melon and tomato crops. ornamental crops or tobacco. Even more preferably, the invention applies to corn.

In furrow we mean a trench dug in the ground. The characteristics of the furrow are those usually used in agriculture, and vary according to the seeds used, which the farmer will be able to adapt. In the grooves, better results will be obtained by incorporating the insecticides regularly to a depth of at least greater than 1.5 cm, preferably greater than 2 cm. The width of the spreading surface of the composition in the groove or in the ridge must be at least greater than the largest circumference occupied by the seed. Uses are applicable against any insect or soil parasite as long as it is susceptible to pyrethrum, or to compounds from the following families: neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine-carboxamides, azadirectines, organophosphorus compounds. For example: wireworms, cutworms, cutworms, moths, scutigérelles, cranes, grapevines, flies such as seedling maggots and onion maggots, corn rootworm. Preferably, the invention is directed to the control of wireworms. As a means of application of the insecticidal compositions, solid formulation applicators or powder applicators can be used. As the solid formulation applicator may be used granule spreaders or small hand-operated granule dispersing equipment such as push rotary spreaders for treating smaller areas. By powder applicator is meant, for example, manual dusting devices or tractor dusting machines. Preferably, an application with a diffuser will be carried out, the diffuser being able to be installed at the end of the output tubes of a microgranulator.

Advantageously, said diffuser will be the QUEUE-DE-CARPE DXP TM diffuser of the Applicant. Said diffuser can be adapted to the end of the microgranulator outlet tubes, particularly on disk seed drills, also on coulter seed drills with the aid of an installation kit, characterized in that it comprises a cylindrical body or frustoconical hollow, open at both ends, one of said ends for fixing said diffuser to said output tube of the microgranulator, and the other end being open on an inclined plane, of any shape, preferably of circular or oval shape, integral with said diffuser and having with said diffuser an angle of between 35 ° and 55 °, preferably between 40 ° and 50 °. Advantageously, said diffuser may further comprise a means of attachment to the output tube of the microgranulator. According to a variant, said fixing means may be a screw positioned perpendicularly to the central axis of the cylinder or truncated cone forming said diffuser and passing through the wall of said cylinder or truncated cone. Such a diffuser can allow precise positioning of the granules or granules of insecticide over the entire width of the seed line. Preferably, the burial uses of the composition in the form of granules or microgranules according to the invention in the soil may be carried out with this diffuser. This diffuser is described in more detail in the international application W02010 / 007239. According to another form of the invention, the granule or microgranulate may be applied between the rows of seedlings. According to this form of the invention, the granule or microgranulate can be incorporated at the time of sowing, before sowing, or at any time after sowing, such as for example between 40 and 70 days after sowing, preferably between 45 and 60 days after sowing. According to this form of the invention, the microgranule or the granule may be incorporated into the soil at a depth of between 0.5 and 50 cm, preferably between 1 and 15 cm. The subject of the invention is also a method for treating crops at the time of sowing, characterized in that a composition comprising at least pyrethrum, preferably one of the pyrethrum, is used in the soil in landfill or landfill. uses previously described.

Claims (23)

CLAIMS1.) Composition in the form of granules or microgranules comprising at least one pyrethrum compound and at least one other active compound chosen from neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine-carboxamides, limonoids, avermectins organophosphorus compounds. 2. Composition according to claim 1, characterized in that the pyrethrum is chosen from pyrethrum per se, pyrethrins and / or pyrethroids, whether natural or synthetic, as well as all their isomers or mixtures of isomers. 3. Composition according to claim 2, characterized in that the synthetic pyrethroids are chosen from acrinathrine, bifenthrin, bioresmethrin, alphametrine, deltamethrin, de-latherethrin, etofenprox, fenpropathrin, cypermethrin, fenvalerate, esfenvalerate, cyfluthrin, betacyfluthrin, betacypermethrin, tralomethrin, fluvalinate, tau-fluvalinate, permethrin, lambda-cyhalothrin, flucythrinate, tefluthrin, zetacypermethrin, preferentially cypermethrin. 4.) Composition according to any one of claims 1 to 3, characterized in that the other active compound is selected from neonicotinoids such as thiamethoxam, clothianidin imidacloprid, acetamiprid, dinotefuran, imidacloprid, nitenpyram, thiacloprid, preferably clothianidin. 5.) Composition according to any one of claims 1 to 3, characterized in that the other active compound is selected from spinosoids such as spinosad and spinetoram, preferentially spinetoram. 6. Composition according to any one of claims 1 to 3, characterized in that the other active compound is chosen from pyridine-azomethrins such as pyrimetrozine. 7. Composition according to any one of claims 1 to 3, characterized in that the other active compound is chosen from pyridine-carboxamides such as flonicamid. 8. Composition according to any one of claims 1 to 3, characterized in that the other active compound is selected from limonoids such as azadirachtin. 9.) Composition according to any one of claims 1 to 3, characterized in that the other active compound is selected from avermectins such as abamectin. 10.) Composition according to any one of claims 1 to 3, characterized in that the other active compound is chosen from organophosphorus compounds such as Azamethiphos, Azinphos-ethyl, Azinphos-methyl, ethyl Carbophenothion, Chlorfenvinphos, Chlormephos, Ethyl-Chlorpyrifos, Methyl-Chlorpyrifos, Cumaphos, Demethon-S-Methyl Sulfone, Diazinon, Dichlorvos, Dimethoate, Disulfoton, Ethion (= Diethion), Ethoprophos, Fenitrothion, Fenthion, Fonofos, Isophenphos, Malathion, Methacriphos, Methidathion, Mevinphos, Omethoate, Oxydemeton-methyl, Methyl-Paraoxon, Parathion, Ethyl -Parathion, Methyl-Parathion, Phenthoate, Phosalone, Phosphamidon, Phoxime, Profenophos, Propetamphos, Pyrazophos, Ethyl-Pyrimiphos, Methyl-Pyrimiphos, Quinalphos, Sulfotep, Vamidothion, preferentially ethyl-Chlorpyrifos or methyl-Chlorpyrifos .. 11. Composition according to any one of claims 1 to 10, characterized in that it comprises pyrethrum in a proportion of between 2 and 5 g per kg of composition, preferably between 3 and 4 g per kg of composition. 12. Composition according to any one of claims 1 to 11, characterized in that when the other active compound is chosen from neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine-carboxamide, limonoids, avermectins, it is present in a proportion of between 3 and 6 g per kilogram of composition, preferably between 2 and 4 g / kg. 13. Composition according to any one of Claims 1 to 11, characterized in that, when the other active compound is chosen from organophosphorus compounds, it is present in a proportion of between 6 and 30 g per kilogram of composition, preferably between 4 and 20 g / kg. 14. Composition according to any one of Claims 1 to 13, characterized in that the microgranulate has a diameter of between 0.1 and 1 mm, preferably between 0.25 and 0.8 mm, and the granule has a diameter. between 0.25 and 5 mm. 15.) Composition according to any one of claims 1 to 14, characterized in that the granule and the microgranule have a bulk density of between 1 and 2, preferably between 1.35 and 1.65. 16.) Use of a composition in the form of granules or microgranules comprising at least one pyrethrum and at least one other active compound chosen from neonicotinoids, chloronicotinils, spinosoids, pyridine-azomethrins, pyridine-carboxamides , limonoids, avermectins, organophosphorus spreading in or on the soil. 17.) Use according to claim 16, characterized in that the spreading is buried in the soil. 18.) Use according to claim 16, characterized in that the spreading is between the rows of sowing, at the time of sowing, before sowing, or after sowing. 19.) Use according to claim 16, characterized in that the spreading is carried out between 40 and 70 days after sowing, preferably between 45 and 60 days after sowing. 20.) Use according to claim 16, characterized in that the spreading is carried out in the soil to a depth of between 0.5 and 50 cm, preferably between 1 and 15 cm. 21.) Use according to one of claims 16 to 20, characterized in that the seed is a seed of corn, rapeseed, sorghum, sunflower, potato, beetroot, carrot, cereals, cabbages, beans, melons, tomatoes, ornamental crops or even tobacco, preferably a corn seed. 22.) Use according to one of claims 16 to 21, characterized in that the insects of the soil are selected from wireworm, cutworm, white worm, the moth scutigérelle, the crane, the otorhynch of the vine , flies such as the seedling fly and the onion fly or the corn beetle, preferentially the wireworm. 23.) Use according to any one of claims 16 to 22, characterized in that the composition is used at a dose ranging from 2 to 20 kg / ha, preferably from 9 to 15 kg / ha, and very preferably from 12 kg / ha.20