FR2974973A1 - Controlling development of parasites e.g. insects and mites in the environment of animals e.g. cattle and sheep provided with device for introducing air, comprises introducing parasiticidal composition into the device of air introduction - Google Patents

Abstract

Controlling development of parasites in the environment of animals provided with a device for introducing air, comprises introducing a parasiticidal composition into the device of air introduction. ACTIVITY : Antiparasitic. MECHANISM OF ACTION : None given.

Description

TECHNICAL FIELD The invention relates to a deworming process. It relates more particularly to a method of deworming the environment of animals by introducing a parasiticidal composition into the aeration device of said environment. It also relates to a device for controlling the development of parasites in the environment of animals, and a breeding building equipped with such a device. Parasiticidal composition means a composition in contact with which parasites which tend to develop especially on farm animals, domestic animals, or humans, can not survive. By parasites we mean arthropods such as insects, mites, fleas, ticks. The parasites can be in the form of eggs, larvae or adults. The action of the composition can be direct. It can also be indirect, for example when the parasiticidal composition destroys a substance necessary for the survival of the parasite. PRIOR ART The development of parasites on farmed animals, domestic animals, is a well-known problem of concern. It can also have important consequences for the hygiene and propagation of certain diseases in the case of farms, such as salmonellosis, especially in poultry farming, enterocolitis, verminosis, mastitis and keratoconjunctivitis in cattle, foot-and-mouth disease and plague. swine, red mullet, myxomatosis of the rabbit. This development can have a significant impact on the economic productivity of farms, particularly in poultry farming, and in particular on the breeding of hens or turkeys and layer hens. It is in particular known to fight parasites with neurotoxic substances and growth inhibitors such as synthetic pyrethroids, organophosphorus or carbamates, for example. These products are applied either by spraying or by thermo-nebulization. Their uses are for the vast majority of products, prohibited in the presence of animals. These substances, in fact, have the disadvantage of being also toxic 2974973 -2 for the animal on which the parasites develop. Some of these substances also have an allergenic character for humans or animals. When animal husbandry is intended for human food consumption, the use of neurotoxic parasiticides is prohibited as these substances contaminate the food chain, as evidenced by the European Biocides Directives (98/8 EC) and plant protection (91/414 EEC). It also presents risks for breeders. It is also known that parasiticidal compositions based on natural or synthetic pyrethroids, or organophosphorus compounds used as alternatives to organochlorine compounds, have an efficiency that decreases rapidly with time. These parasiticidal compositions have an action that can be described as "shock action". Their effectiveness is generally of the order of a few days, and at most of the order of a few weeks. This is due to non-zero vapor pressures of the components which generate their volatilizations over time and, secondly, to their oxidative degradation. Once removed parasites can re infest a breeding during a breeding campaign. The toxicity of such compositions including for animals limits their use on occupied buildings. In the title WO 01/35744 there is disclosed a parasiticidal composition, based on silica. This gel composition is free of neurotoxicants but is expensive. It also has the disadvantage of forming on the treated surface a gelatinous deposit on which the ambient dusts tend to adhere, which reduces its effectiveness over time. In the titles WO2005 / 025317 and WO2006 / 097480, there are disclosed various parasiticidal compositions in the form of aqueous suspensions based on alkali metal bicarbonate which are of interest not to be toxic to humans and animals. These compositions are applied by brushing or spraying on the vertical surfaces of the buildings and equipment to be treated. The treatment of a livestock building, for example laying hens after cleaning and crawl space, is most often carried out by spraying the suspension. The operation, however, requires specific industrial low or high pressure spray devices that are of some investment and the operation requires several hours to apply the aqueous suspension on all surfaces of the cages and those close to the feeders. The drying of the aqueous suspensions is effective within a few minutes to a few hours depending on the thickness applied. In the title WO2006 / 097504, there is disclosed a parasiticidal composition in powder form based on alkali metal bicarbonate, which can be applied by sprinkling on the horizontal surfaces of buildings occupied by farm animals on the ground. Here too, the floor surface treatment requires several hours of work when it is necessary to treat large areas such as those of livestock buildings despite the use of specific equipment. On the other hand, the floor is often in the form of slats, through which animal droppings fall. When these gratings are covered with product in powder form, the animals walking on these gratings remove the product from the soil; This requires regular reprocessing of these surfaces. The aim of the invention is to provide an alternative method of deworming enabling an appreciable gain both in time of application and in investment of specific apparatus, which offers a lasting efficiency in the fight against the parasites developing on animals and in their environment. SUMMARY OF THE INVENTION The invention relates to a method for controlling the development of parasites in the environment of animals provided with an air introduction device in at least one point of introduction, according to which a parasiticidal composition in the air introduction device. It also relates to the use of the method, a device for controlling the development of parasites in the environment of animals, and a breeding building equipped with such a device. DETAILED DESCRIPTION OF THE INVENTION In the present invention, the device for introducing air into the animal environment is a device for transporting the parasiticidal composition into the environment of animals. This device can be selected from one of the following devices: ventilation grille, pressurized air capacity, forced motor ventilation, and combinations thereof. In an advantageous embodiment of the invention, the ventilation grid 30 is a grid placed on a building wall associated with one or more secondary ventilation grids, arranged in such a way that the flow of natural air passing through the ventilation grid to the animals' environment has a speed sufficient to cause a parasiticidal composition in gaseous form, or in the form of a liquid spray, or in the form of a powdery powder. In another advantageous embodiment of the invention the air introduction device is an aeration device comprising one or more equipment (s) forcing the ventilation of said environment and according to which the composition is introduced. parasiticide upstream or downstream of equipment forcing ventilation, preferably upstream of equipment forcing ventilation. Equipment forcing ventilation can be chosen from equipment known to those skilled in the art such as electric, pneumatic or mechanical motor-fans. In particular it can be chosen from fans, turbofans, ejectors. The fans are particularly suitable. According to a preferred embodiment of the invention, the point (s) of introduction of air into the environment of the animals is (are) located near the faeces of the animals. In the present invention, the term "meadows" of animal excretions is understood to mean a distance of preferably at most equal to 10 meters, more preferably at most equal to 5 meters, or even at most equal to 2 meters, and most preferably to more equal to 1 meter. In an even more preferred embodiment the point (s) of introduction of air into the animal environment is (are) placed in close proximity to the conveyors or conveyor belts of the animals. excrement of animals. In the case of breeding caged animals such as laying hens, it is particularly advantageous that the air introduction device is the drying device of the droppings located on the carpets, located themselves under the part lower screen of the cages. In any of the above embodiments, the parasiticidal composition is advantageously introduced as a particulate powder, wherein said particles preferably have a particle size distribution such that at least 75% of the particles have a diameter. less than 100 μm, more preferably such that at least 90% of the particles have a diameter of less than 70 μm. The diameters are measured according to the ASTM C-690 - 1992 standard. Such a form of the parasiticidal composition allows an effective diffusion of the parasiticidal composition by the device for introducing air into the environment of the animals. The parasiticidal composition is then sprinkled in a thin layer in the animal environment. The parasites then moving in contact with the parasiticidal composition, can not survive. In any of the above embodiments, the parasiticidal composition advantageously comprises an alkali metal bicarbonate and / or silica. In the process according to the invention, the alkaline bicarbonate may, for example, be bicarbonate in the strict sense, such as potassium or sodium bicarbonate. In this specification, however, it also covers compound salts such as alkaline sesquicarbonates (for example trona) which comprise bicarbonate. Bicarbonates of sodium, potassium or trona are especially suitable. Bicarbonates in the strict sense are recommended. Potassium bicarbonate or sodium bicarbonate, more particularly sodium bicarbonate, are preferred. In some cases, however, potassium bicarbonate is more preferred. In the particular embodiment of the present invention, wherein the parasiticidal powder comprises an alkaline bicarbonate and / or silica, the powder advantageously comprises at least 60%, preferably at least 70%, even more preferably at least 80% by weight. of bicarbonate. The bicarbonate has a clean parasiticidal action In the particular embodiment of the present invention, wherein the powdered parasiticidal composition comprises an alkali metal bicarbonate and / or silica, the parasiticidal composition comprises at least 1%, preferably % silica. When combined with alkali metal bicarbonate, it is recommended that it comprise not more than 20%, preferably not more than 15%. It is recommended that the silica be in amorphous (and non-crystalline) form for its tolerance by the human and animal bodies. It is preferred that the silica be in the form of very fine particles, having a high specific surface area, for example greater than 200 m 2 / g, preferably 400 m 2 / g, measured according to ISO 5794-1, Annex D. In an advantageous embodiment of the invention, the silica is in the form of particles having a mean diameter of less than 10 microns. The average diameter is measured according to ASTM C-690-192. It has been observed that when the parasiticidal composition is in powder form and simultaneously comprises an alkali metal bicarbonate and a silica, the powder exhibits excellent fluidity. It produces practically no sticking or adhesion of powder on the walls of the introduction device. Indeed a synergy between the two components of the powder is created: the silica provides a very good flowability of the powder and the alkali metal bicarbonate provides a slight abrasive effect of the powder causing a self-cleaning effect of the possible deposits of the powder. powder in the air introduction devices. In any of the above embodiments, the parasiticidal composition is advantageously free of neurotoxicants. In another particularly advantageous embodiment, when the parasiticidal composition comprises an alkali metal bicarbonate and / or silica, the parasiticidal composition is free of other parasiticidal active principle. In fact, alkaline bicarbonates and silica are substances which are not harmful to humans and animals. In the case of sodium and potassium bicarbonates they are even authorized by different bodies (such as the Food and Drug Administration in the United States and the EEC) in the human diet. In this particularly advantageous embodiment, the alkaline bicarbonate is preferably sodium bicarbonate. The method of the invention is effective against pests in many animal environments, including certain human environments. By environment we mean all the surfaces on which the parasites can be brought to arise, to move or to develop. This environment includes, for example, house soils, cellars, granaries, livestock buildings, the latter including cages, nest boxes, boxes, litters, and nests. The parasites developing on farm animals are extremely varied: fleas, lice, bedbugs and ticks are found in particular. The method according to the invention is used in the environment of animals to control the development of insects such as fleas, lice, mealworm, and the development of mites such as ticks, and sarcoptes. According to an advantageous variant of the process according to the invention, the parasites are mites. The process is especially effective against Dermanyssus Gallinae. These parasites tend to grow abundantly in the environment of laying hens. These are intermittent parasites. They do not always stay in contact with the animal. They are killed during their contact with the treated environment of the animal. Livestock buildings also suffer from the presence of many molds and various fungi, such as for example Aspergillus, including fumigatus. The use of bicarbonate in the parasiticidal composition according to the invention also makes it possible to fight against their development. Accordingly, the invention also relates to the use of the method according to the invention for its combined parasiticidal and antifungal effects. The method according to the invention can be used to control the development of parasites in the environment of any type of farm animal. Examples are cattle, sheep, goats, rabbits, poultry, birds and pigs. The deworming of their environment improves the growth and development of these animals, and increases the productivity of the farms. Accordingly according to a preferred embodiment of the method according to the invention, the animals are farm animals, and the environment is in particular the building in which the animals are raised. According to a preferred embodiment of the process according to the invention, the farm animals are poultry, such as laying hens, chickens and turkeys. It has been observed that the treatment according to the invention of their environment allows a good egg production of laying hens and a good growth of the chickens, thanks to the elimination of the parasites. The process is particularly advantageous for the breeding of laying hens. Indeed, the method according to the invention allows a control of the effective development of red lice, such as Dermanyssus Gallinae, vectors of the transmission of certain salmonellosis that can reach eggs and, on the other hand, likely to degrade the visual quality of the eggs. generating spots on the surface of the eggs. When the parasiticidal composition comprises an alkali metal bicarbonate and / or silica, the parasiticidal composition is introduced into the air introduction device in an amount by application of at least 5, preferably at least 10 more preferably at least 20, most preferably at least 40 mg per kilogram of animal. It is not useful to introduce the parasiticidal composition into the air introduction device in too large quantity, otherwise the environment of the animals will be dusty and slippery. It is recommended to introduce the parasiticidal composition into the air introducing device in an amount by application of not more than 500, preferably not more than 250, more preferably not more than 125, so the most preferred of not more than 80 mg per kilogram of animal. According to the process according to the invention, it is further recommended that the frequency of application of the parasiticidal composition is at least bimonthly, preferably at least monthly, more preferably at least biweekly, most preferably at least weekly. Thus an application according to the method according to the invention requires only one to three minutes operator, which can be repeated regularly, instead of three to four hours operator for a traditional direct treatment surfaces by dusting or spraying under pressure of a parasiticide or insecticide. On the other hand, the quantity of parasiticidal composition in powder form remains limited; thus at a rate of 75 mg of powder per hen and weekly application, the amount of parasiticidal composition is limited to 4 grams of powder per hen per year. Accordingly, the present invention also relates to the use of the present method for controlling the development of parasites in the animal environment.

The invention also relates to a device for facilitating the implementation of the method according to the invention. According to one of the embodiments, the device for controlling the development of parasites in an animal environment comprises: at least one aeration duct for introducing air into at least one point of introduction into the environment of animals, at least one equipment forcing the circulation of air in the at least one aeration pipe, and preferably ensuring in all or part of the at least one aeration pipe a circulation velocity of at least 0.5, preferably at least 1, more preferably at least 2, most preferably at least 5, at least one introducer of parasiticidal powder in said aeration pipe upstream or downstream of the at least one equipment forcing the flow of air, preferably upstream of the at least one equipment forcing the flow of air. The vent pipe may be of any shape with cylindrical or rectangular sections. It is made of plastic or metal. Plastics are preferred. The plastics that can be used advantageously consist of polyolefins (such as polyethylene, polypropylene), PVC, or PVDF. PVC is preferred. When the ventilation ducts are made of plastic material, it is advantageously loaded with mineral fillers in order to provide sufficient impact strength for their use in an industrial or agricultural environment. The surface condition of the ventilation ducts is preferably chosen from "smooth" interior finishes. Inner surface conditions for pipes with little or no asperities larger than 10 μm, advantageously 5 μm, more preferably 2 μm are preferred. The "smooth" appearance makes it possible to limit the possible adhesion of the parasiticidal composition when it is in the form of a powder. The metallic materials that can be used for the ventilation duct are advantageously steel, and more advantageously food grade stainless steel. Aluminum and galvanized steel are less favorable because corrodable. In an advantageous embodiment of the device according to the invention, the ventilation duct is equipped at the end with the right section (s) of opening device (s) allowing the passage of cleaning and brushing tools. inside of the right section (s) of the pipe. The elbows of the pipe are advantageously chosen from those with a large radius of curvature, if D is the diameter of the pipe or one of its internal characteristic dimensions, the radii of curvature are advantageously at least 3D, preferably from minus 5 D.

The connections between straight and curved sections of the pipe are advantageously joined together and seamlessly penetrating into the interior of the pipe. The equipment forcing the flow of air into the at least one air duct is selected from fans, turbofan engines, ejectors.

The equipment is advantageously chosen from the fans. The device for introducing parasiticidal powder into said aeration line is selected from bottomless hopper devices, solid screw doser devices having powder storage capacity, hopper devices with rotating clover, hopper devices with slide valves, conical hopper devices equipped with hopper mixer arms, and combinations thereof. When the equipment forcing the flow of air is selected from turbofan engines or ejectors, the parasiticidal powder introduction device is advantageously placed downstream of the equipment.

When the equipment forcing the flow of air is selected from the fans, the parasiticidal powder introduction device is advantageously placed upstream of the equipment. The term "downstream" is used herein to mean: after the equipment forcing the air flow with respect to the main air flow direction in the device to control the development of pests in an environment of animals. And herein is meant by the term "upstream": prior to equipment forcing the airflow relative to the main flow direction of air in the device to control the development of pests. in an environment of animals. The point of introduction of air into at least one point of introduction into the animal environment of the present invention is conveniently located near animal droppings. The air introduction point can be equipped with baffles. Advantageously, the point (s) of introduction of air is (are) constituted (s) of one or more slot (s) on the vent pipe. In the case of devices for laying hens, chickens and flesh turkeys, the point of introduction of air into at least one point of introduction into the animal environment of the present invention is advantageously located under the mesh part. lower cages. In this case, preferably, the point of introduction of air is located on the fountain evacuation mats, under the lower screen portion of the cages. The invention also relates to an animal breeding building equipped with a device for controlling the development of parasites according to the present invention.

The following example serves to illustrate the invention. It is not limiting and can be transposed to other animals and other types of breeding environment.

Example (in accordance with the invention) A breeding building which can hold 40,000 battery laying hens, is equipped with an air introduction device for the drying of dung.

Mechanized mats installed under the cages of the animals receive the droppings. Each battery has a ventilation duct. The sheath has a slot allowing the introduction of air at a height of about 15 cm above the carpets. Every day, the droppings are activated in order to advance and evacuate the droppings.

In the present example, a "Bi-Protec" parasiticide powder from Solvay Carbonate France was used. This powder is in accordance with that described in patent EP1860948 and used in Examples 1 to 5 of said patent. Once a week, Bi-Protec based basal treatment is performed according to the method of the present invention. To do this, the mats are activated to evacuate the droppings from the mats, then the cross ventilation in the livestock building is reduced, to prevent the parasiticidal powder from being evacuated too quickly outside the building. , then over a period of 2 minutes 4.5 kilograms of Bi-Protec powder are introduced to the suction of the fan of the air introduction device for the drying of dung. This amount of Bi-Protec corresponds to 77 mg of Bi-Protec per laying hen per week, ie of the order of 40 mg per kilogram of animal per week. It is observed after treatment that the Bi-Protec powder is uniformly distributed in the livestock building in a thin layer on the equipment and cages. The transversal ventilation of the building is then restarted about 1 hour after treatment with Bi-Protec.

The corresponding amount of Bi-Protec used over a year once a week according to the procedure described above therefore corresponds to 4 g per laying hen. In the breeding building which was initially infested with Dermanyssus Gallinae (red lice), after a few weeks of use of the method, a good control of the development of red lice is observed: most of the red lice observed, adults or young, are dead. After six months of use of the process in the livestock building, it remains very clean, there is little or no live Dermanyssus Gallinae (red lice), as well as little or no other mite or insects parasites on them. 20 building structures, cages and nest boxes. Chickens are particularly calm, especially when compared to normal livestock buildings or buildings where red lice are not treated. The air introduction circuits used for the dispersion of the parasiticidal powder are clean.

Claims (10)

CLAIMS 1 - A method for controlling the development of parasites in the environment of animals equipped with an air introduction device, wherein a parasiticidal composition is introduced into the air introduction device. 2 - Process according to the preceding claim wherein the air introduction device is an aeration device comprising one or more equipment (s) forcing aeration of said environment and according to which the parasiticidal composition is introduced upstream or downstream Equipment forcing ventilation, preferably upstream of equipment forcing ventilation. 3 - Process according to claims 1 or 2, wherein the air introduction device comprises one or more point (s) of introduction of air into the animal environment which is (are) located (s) near animal droppings. 4 - Process according to any one of claims 1 to 3, wherein the parasiticidal composition is introduced in the form of powder consisting of particles, and wherein said particles preferably have a particle size distribution such that at least 75% of the particles have a diameter less than 100 microns, more preferably such that at least 90% of the particles have a diameter less than 70 microns. 5 - Process according to claim 4, wherein the parasiticidal composition comprises an alkali metal bicarbonate, preferably sodium bicarbonate, and / or silica. 6 - Process according to any one of claims 1 to 5, wherein the parasiticidal composition is free of neurotoxic, preferably other parasiticidal active ingredient. 7 - Process according to any one of claims 1 to 6, wherein the animal is a farm animal, preferably a laying hen, and wherein the environment is in particular the building in which the animal is raised . 2974973 - 13 - 8- Process according to any one of claims 1 to 7 wherein the parasiticidal composition is introduced into the air introduction device in an amount by application of at least 5, preferably at least 10, of more preferably at least 20, most preferably at least 40 mg per kilogram of animal and at most 500, more preferably at most 250, more preferably at most 125, most preferably at most 80 mg per kilogram of animal. 9- Method according to any one of claims 1 to 8 according to which the frequency of application of the parasiticidal composition is at least bimonthly, preferably at least monthly, more preferably at least fortnightly, most preferably at least weekly. 10 - Use of the method according to any one of claims 1 to 9.