Liquid Insect Bait Flüssiger Insektenköder Appat Liquide Pour Insectes

Europäisches Patentamt *EP000802727B1* (19) European Patent Office

Office européen des brevets (11) EP 0 802 727 B1

(12) EUROPEAN PATENT SPECIFICATION

(45) Date of publication and mention (51) Int Cl.7: A01N 25/00 of the grant of the patent: 16.08.2001 Bulletin 2001/33 (86) International application number: PCT/US95/16717 (21) Application number: 95944364.9 (87) International publication number: (22) Date of filing: 21.12.1995 WO 96/21352 (18.07.1996 Gazette 1996/33)

(54) LIQUID INSECT BAIT FLÜSSIGER INSEKTENKÖDER APPAT LIQUIDE POUR INSECTES

(84) Designated Contracting States: • SCHROEDER, Peter, J. AT BE CH DE DK ES FR GB GR IE IT LI LU NL PT Berkshire SL4 3SX (GB) SE (74) Representative: Ruschke, Hans Edvard, Dipl.-Ing. (30) Priority: 09.01.1995 US 370046 Ruschke Hartmann Becker Pienzenauerstrasse 2 (43) Date of publication of application: 81679 München (DE) 29.10.1997 Bulletin 1997/44 (56) References cited: (73) Proprietor: S.C. JOHNSON & SON, INC. WO-A-91/00007 WO-A-92/14363 Racine, WI 53403-2236 (US) WO-A-93/02554 WO-A-95/24124 US-A- 5 017 620 (72) Inventors: • UICK, Heidi, J. Racine, WI 53406 (US)

Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention). EP 0 802 727 B1

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Description

Field of the Invention

5 [0001] This invention relates to insect baits in general and, particularly, to liquid insect baits having delayed drying times as well as to a method of attracting target insects by using these insect baits.

Background Art

10 [0002] It is generally understood that there are advantages to a liquid preparation when making a bait for use with insects that prefer or even require their food to be in liquid form prior to ingestion or digestion. Commercially available liquid ant baits are familiar, such as the water and sucrose product sold under the name "Terro Ant Killer" by Senoret Chemical Co., Inc. of St. Louis, Missouri. However, liquid and even moist baits tend to dry out when exposed to the air during use, losing their advantage. 15 [0003] Brenner et al. in U.S.-A-4 988 510 address the general problem of drying. Brenner et al. disclose a semi-solid insect bait that includes one or more humectants formulated together with an attractant and an insecticide to create a deformable, hydrophilic gel matrix. Sugars, glycerol, and other polyhydroxy alcohols are cited as humectants useful in the bait for the purpose of drawing moisture from the air to allow the bait to remain pliable and relatively moist. The humectant is stated to be present in an "effective amount," which is defined as that amount necessary to achieve the 20 intended result of the component. For humectants, Brenner et al. describe that amount as being 30-45 %, on a dry weight basis. [0004] The inclusion of sorbitol in an insect bait is relevant to the present invention, and the polyhydroxy alcohols, referred to as a class by Brenner et al., could include sorbitol. Furthermore, Hagerty in U.S.-A-4 889 710, and Inazuka et al. in U.S.-A-4 160 824 specifically include sorbitol in the insect bait preparations they describe. However, the Brenner 25 et al. bait is not liquid, and Hagarty and Inazuka et al. utilize sorbitol not as a humectant but, instead, as an emulsifier. In Hagarty, an aerosol foam is disclosed that is formed of a water soluble, film-forming polymer. An emulsifier is included to emulsify the film-forming polymer so that it will foam, and sorbitol derivatives are cited among the examples of useful emulsifiers. Emulsifier amounts in the Hagarty composition range from 0.01 to 5 weight%. [0005] Inazuka et al. describe insect attractive compositions that, among other options, may be used in solutions or 30 emulsions, if dissovled or dispersed in a suitable liquid carrier with the aid of an emulsifier or dispersing agent. Sorbitols are referred to generally as being among the suitable emulsifiers, spreading agents, and penetrants for use with the Inazuka et al. insect attractive compositions. The proposed amount of sorbitol is not specified, and one skilled in the art therefore would understand that a conventional or an effective amount is being referred to. The disclosure of Hagarty, cited above, shows that one skilled in the art would expect such emulsifiers to be effective in an amount between 0.01 35 to 5 weight%. [0006] Sorbitol is a commercially available material and is on the market as an aqueous solution in a variety of concentrations for a variety or purposes. Thus, sorbitol is conventionally available for manufacturing and other purposes in an aqueous solution that is approximately 70 % sorbitol by weight. U.S.-A-2 829 085 of Gerber et al. is a further example of sorbitol solutions in concentrations relevant to the present invention. Gerber et al. describe a parenteral 40 vehicle for therapeutic agents in which sorbitol is used to aid in the suspension of non-soluble therapeutic agents in injectable aqueous preparations. In Gerber et al., sorbitol is used in an amount sufficient to raise the specific gravity of the water solution in which it is dissolved until it is substanitally equal to the specific gravity of the therapeutic agent that is to be suspended within the injectable preparation. Weight percentages of 30.4 % and 59.2 % are cited in two examples given to show the application of the Gerber et al. invention to two different therapeutics. 45 [0007] Neither Hagarty, Inazuka et al., nor Gerber et al. utilize sorbitol for its humectant properties, nor are any of them concerned with strategies to delay the drying of their preparations. [0008] U.S.-A-5 017 620 (David L. Grasmann et al.) disclose weather resistant molluscicide compositions in the form of a uniformly dispersed mixture comprising an aqueous carrier, a poison in an amount effective to kill molluscs that contact said molluscicide composition, an attractant for molluscs, a thickener for increasing the viscosity of the mol- 50 luscicide composition and a humidifying agent, for example sorbitol, in an amount of from 2.0 to 10.0 weight%, based on the total weight of the pesticide composition. [0009] WO-A-92/14 363 (L. Dorothy Sander et al.) discloses an aqueous insecticidal formulation for the control of social insects, especially wasps, comprising a sulfonic acid as insect control agent and an insect attracting agent, however not containing sorbitol as a humectant. 55 [0010] WO-A-95/24 124 (Maria G. Ochomogo et al.), published on September 14, 1995 with a priority date of March 08, 1994, and to be regarded as prior art in the sense of Article 54 (3, 4) EPC discloses means of delivering a poison insect bait in the viscid form in situations where solid or liquid forms may not be suitable. Therefore, the insecticide bait emulsions described therein and containing sorbitol are not liquid.

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Summary of the Invention

[0011] The technical problem underlying the present invention, namely to reduce drying out of liquid/moist bait, is solved according to the present invention by adding sorbitol to the aqueous insecticidal composition disclosed in WO- 5 A-92/14 363 in an amount of not less than 20 % and not more than 65 % of the weight of the bait and thus in a substantially higher amount than that recommended in US-A-5 017 620. [0012] Subject-matter of the present invention is according to a first aspect a liquid bait for target insects comprising

a) sorbitol dissolved in an amount of water sufficient to form an aqueous liquid carrier, the dissolved sorbitol being 10 in a concentration great enough to be effective as a humectant to retard drying of the liquid carrier and small enough that the liquid carrier remains liquid upon the addition of any attractants or other ingredients of the liquid bait, wherein the dry weight percent of sorbitol is not less than 20 % and not more than 65 %, of the bait, and

b) at least one insect attractant dissolved, dispersed, suspended, or emulsified in the liquid carrier in an amount 15 effective to attract the target insects.

[0013] The baits of the present invention are industrially useful for insect monitoring and control in research, commercial and domestic contexts. For such baits to be optimally useful, they must remain liquid for as long as possible. The present invention addresses that need for liquid insect bait of retarded drying time. 20 [0014] The dry weight% of sorbitol used in the liquid bait of the present invention is preferably not less than 20 % and not more than 60 % of the bait, more preferably not less than 35 % and not more than 60 % of the bait, most preferably not less than 50 % and not more than 60 % of the bait. [0015] According to a preferred embodiment of the present invention the insect attractant is selected from the group consisting of insect attractive pheromones and scents, insect ingestable carbohydrates, proteins, fats, oils, inorganic 25 salts, artificial sweeteners, vitamins, natural and artificial flavors, and combinations thereof, and more preferably is selected from the group consisting of sucrose, fructose, d-maltose, saccharin, an alkali metal salt of saccharin, alkali metal chlorides, vitamines, and combinations thereof. [0016] According to a further preferred embodiment of the present invention the liquid bait as defined above includes in addition 30 c) an effective amount of an insect control active ingredient selected from the group consisting of insecticides, insect growth regulators, chitin inhibitors, insect pathogens, insect-controlling materials derived from insect pathogens, and combinations thereof. [0017] The insect control active ingredient of the above liquid bait is preferably selected from the group consisting of lithium perfluorooctane sulfonate, d-phenothrin, N-ethyl perfluorooctanesulfonamide, fipronil, avermectin, chlorpy- 35 rifos, phoxim, acephate, hydramethylnon, boric acid, sodium borate, silica aerogel, pyrethrum, transfluthrin, cyfluthrin, deltamethrin, fenvalerate, propoxur, carbaryl, bendiocarb, fenoxycarb, dioxycarb, lindane, aldrin, dieldrin, endrin, insect pathogenic viruses, bacteria, fungi and nematodes and insect-controlling materials derived therefrom, and combinations thereof. [0018] The preferred target insects are ants and the preferred insect attractant includes in combination, sucrose, 40 fructose, and d-maltose, more preferably the insect attractant also includes an alkali metal salt of saccharin, and an alkali metal chloride. [0019] The insect attractant most preferably also includes vitamins. [0020] According to a further preferred embodiment of the present invention in the liquid bait the target insects are ants and 45 the insect attractant (b) includes, in combination, sucrose, fructose, d-maltose, the lithium salt of saccharin, and lithium chloride; and the insect control active ingredient (c) includes an effective amount of lithium perfluorooctane sulfonate.

50 [0021] According to a particularly preferred embodiment the insect attractant (b) includes saccharin and lithium carbonate, at least a portion of which reacts in situ to produce the lithium salt of saccharin of the liquid bait, more preferably vitamins. [0022] In a further preferred embodiment of the present invention in the liquid bait as defined above the insect attractant (b) includes, in combination, sucrose, fructose, d-maltose, the lithium salt of saccharin, lithium chloride, and 55 vitamins; and the insect control active ingredient (c) includes an effective amount of lithium perfluorooctane sulfonate, and the liquid bait preferably is held within a porous body as a reservoir for holding the bait. [0023] A further subject-matter of the present invention is according to a second aspect a method of attracting target

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insects comprising the step of exposing to the insect the liquid bait for target insects as described above. [0024] Preferably the target insects are hymenopteran insects and the insect attractant (b) is selected from the group consisting of sucrose, fructose, d-maltose, saccharin, an alkali metal salt of saccharin, alkali metal chlorides, vitamins, and combinations thereof. 5 [0025] More preferably, the target insects are ants and the insect attractant (b) includes, in combination, sucrose, fructose, and d-maltose. [0026] The insect attractant (b) as defined above preferably also includes an alkali metal salt of saccharin and an alkali metal chloride as well as more preferably also vitamins. [0027] The invention is summarized in that a liquid bait for target insects includes sorbitol dissolved in an amount of 10 water as defined above sufficient to form an aqueous carrier. The dissolved sorbitol is in a concentration great enough to be effective as a humectant to retard drying of the liquid carrier. However, it is also in a concentration small enough that the liquid carrier remains liquid upon the addition of any attractants or other ingredients of the liquid bait. The liquid bait further includes at least one insect attractant that is dissolved, dispersed, suspended, or emulsified in the liquid carrier in an amount effective to attract the target insects. 15 [0028] An alternative embodiment of the invention is summarized in that the insect attractant includes, in combination, sucrose, fructose, d-maltose, the lithium salt of saccharin, lithium chloride, and vitamins. This embodiment of the liquid bait also includes an effective amount of lithium perfluorooctane sulfonate as an insect control active ingredient. [0029] The method of the invention is summarized in that a method of attracting target insects includes the step of exposing to the insects the liquid bait first summarized above. The method of the invention for controlling the target 20 insects includes exposing to the insects that same liquid bait with the addition of an effective amount of an insect control active ingredient selected from the group consisting of insecticides, insect growth regulators, chitin inhibitors, insect pathogens, insect-controlling materials derived from insect pathogens, and combinations thereof. In a preferred embodiment of the method of controlling target insects, the insect attractant of the liquid bait includes, in combination, sucrose, fructose, d-maltose, the lithium salt of saccharin, lithium chloride, and vitamins. 25 [0030] The insect control active ingredient preferred in this embodiment is lithium perfluorooctane sulfonate.

Description of the Drawing

[0031] Fig. 1 is a graph showing the results of a measurement of the drying rates of differing concentrations of sorbitol 30 in water.

Detailed Description of the Invention

[0032] The liquid bait for target insects of the invention has been so formulated as to provide an aqueous liquid carrier 35 that has a slowed drying time. To achieve this end, an aqueous liquid carrier is made by dissolving sorbitol in water at a concentration as defined above which is great enough to be effective as a humectant, to retard drying of the aqueous liquid carrier. An "effective amount" of a component is defined as that amount capable of achieving the intended result of the component. As is shown in the examples, below, a minimal concentration of 20 % sorbitol dissolved in water retards drying of the solution to an extent that is of interest for the liquid insect bait of the present invention. 40 [0033] Sorbitol is not itself effective as an attractant for insects. Therefore, at least one insect attractant must be carried by the aqueous liquid carrier in an amount effective to attract the target insects. For the insect attractant to be distributed through the liquid bait, it is necessary that the insect attractant either be dissolved, dispersed, suspended, or emulsified in the liquid carrier. [0034] As the aqueous liquid carrier dries, an insect attractant that is dissolved therein normally will reach saturation 45 and then begin to appear in solid form. Similarly, insect attractants that are dispersed, suspended, or emulsified will lose their ability to remain distributed through the liquid carrier or, alternatively, the entire preparation may dry to a paste and eventually even to a solid. Sorbitol, as one of the solids in solution in the aqueous liquid carrier, contributes to the total concentration of solids dissolved or otherwise carried within the liquid carrier. [0035] As a consequence, while the sorbitol dissolved in the aqueous liquid carrier must be in a concentration great 50 enough to be effective as a humectant to retard drying, the concentration must also be small enough that the liquid carrier remains liquid upon the addition of desired amounts of the insect attractants or other ingredients of the liquid bait. [0036] In theory, a very small amount of sorbitol could be dissolved in the liquid carrier, the water of which would then begin to evaporate. Upon continued evaporation of the water, the concentration of sorbitol would increase, along with that of the other dissolved materials. The humectant characteristics of the sorbitol would increase as it became 55 more concentrated, causing the sorbitol to eventually significantly retard the drying of th bait. However, from a practical standpoint, the intitial concentrations of sorbitol and the other ingredients dissolved, dispersed, suspended, or emulsified in the liquid carrier must be such that the liquid bait has useful function immediately and also does not lose an excessive percentage of its volume before the concentration of sorbitol is high enough to retard further drying. The

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minimal initial dry weight percent of sorbitol in the liquid bait of the invention is not less than 20 %, preferably not less than 35 %, and even more preferably is not less than 50 %. The maximum dry weight percent of sorbitol that is preferred for practical purposes is 65 %, and even more preferably is not more than 60 %. [0037] The insect attractant of the liquid bait of the invention preferably may be selected from insect-attractive phe- 5 romones and scents and from insect-attractive ingestable materials, such as carbohydrates, proteins, fats, oils, inorganic salts, artificial sweeteners, vitamins, natural and artificial flavors, and any other attractant that can be carried by an aqueous liquid carrier and made accessible to insects feeding on the bait. [0038] For any given target insect, a combination of attractants may be as or even more effective than the attractants individually. Thus, when the target insects are hymenopteran insects, it was found that a combination of sucrose, 10 fructose, and d-maltose attracted the insects. Saccharin or alkali metal salts of saccharin also were found to be attractive. Sodium chloride and lithium chloride also are attractants, as are vitamins that can be dissolved or otherwiese distributed through the aqueous liquid carrier. It was found that various combinations of these separately attractive insect attractants achieved optimal results. Furthermore, the mixture of naturally occurring sugars isolated from maize was also useful, being primarily composed of fructose but also having significant fractions of dextrose and higher 15 saccharides. [0039] The preferred embodiment of the liquid bait, especially when the target insects are ants or other hymenopteran insects, includes an insect attractant combining sucrose, fructose and d-maltose. Even more preferred is an insect attractant that also includes an alkali metal salt of saccharin and an alkali metal chloride. The best results were obtained when the insect attractant further included vitamins. Dr. Frantisek Sehnal of the Entomological Institute of the Czech- 20 oslovak Academy of Sciences reported in a public oral presentation in Racine, Wisconsin, on June 21, 1991, that poultry vitamins had proved attractive to insects in certain solid or semi-solid baits otherwise different from the liquid bait of the invention. Water soluble or dispersible vitamin preparations are preferred, although, the use of non-water soluble vitamins as insect attractants is also possible, when the vitamins are made a part of an emulsion or other means of dispersing the vitamins throughout the aqueous liquid carrier of the invention. Such use and materials are also within 25 the scope and spirit of the present invention. [0040] The liquid baits described above, including those noted as preferred for ants and other hymenopteran insects, also have been found to be effective with othopteran insects. They also are effective for dermapteran, thysanuran, and other insects. Therefore, the scope of the present invention should not be understood as limited to any specific insect or order. 30 [0041] Liquid baits for insects can be useful in any of a number of circumstances without any insect control active ingredient. Thus, for research or insect population monitoring purposes or even for insect control, it may be useful to bait target insects to a trap or a feeding station where they may be held, observed, or counted, without the addition to the bait of materials that would further biologically affect the insects. However, it is common to include an insect control active ingredient in a bait in order to kill or otherwise regulate or biologically affect the insects. Thus, a preferred 35 embodiment of the liquid bait of the invention includes an effective amount of an insect active control ingredient that may be dissolved, dispersed, suspended, or emulsified in the liquid carrier in an amount effective to achieve the result desired with respect to insects feeding on the liquid baiit. The preferred insect control active ingredients of the invention are selected from the group consisting of insecticides, insect growth regulators, chitin inhibitors, insect pathogens, insect controlling materials derived from insect pathogens, and combinations thereof. 40 [0042] Various insecticides are available and appropriate for use with the liquid bait of the invention. To be useful in the invention, an insecticide must not be so repelling to the target insect that the insect fails to feed on the liquid bait, and the insecticide must also be capable of being dissolved, dispersed, suspended, or emulsified in the liquid carrier in a concentration effective to achieve the desired results. Even relatively small concentrations of insecticides never- theless may be effective if the insecticide is itself very potent in small quantities or if slow or cumulative action is desired 45 so that an insect may feed repeatedly on the bait before its death. The latter is commonly a goal when it is desired to induce a social insect to repeatedly carry an active ingredient into its nest so that not just the initially feeding insect but also the entire nest can be affected by the active ingredient. [0043] Useful, presently available insecticides include but are not limited to organo. phosphates such as chlorpyrifos, phoxim, and acephate; non-phosphate insecticides such as hydramethylnon; inorganic insecticides such as boric acid, 50 sodium borate, and silica aerogel; pyrethrum and synthetic pyrethroids such as transfluthrin, cyfluthrin, deltamethrin, d-phenothrin, and fenvalerate; carbamates such as propoxur, carbaryl, bendiocarb, fenoxycarb, and dioxycarb; pyra- zoles such as fipronil sold by Rhone-Poulenc Ag Co. of Research Triangle Park, North Carolina; pyrroles such as the product sold as "Pirate" by American Cyanamid Co. of Wayne, New Jersey; sulfonates and related insecticides such as lithium perfluorooctane sulfonate and N-ethyl perfluorooctanesulfonamide; and cyclocompounds such as lindane, 55 aldrin, dieldrin, and endrin. [0044] Useful insect growth regulators include but are not limited to methoprene, fenoxycarb, and pyriproxyfen. Chitin inhibitors include but are not limited to flufenoxuron (sold as "Motto" by the Shell Chemical Company of Houston, Texas) and lufenuron (as sold by the Ciba-Geigy Corp. of Greensboro, North Carolina).

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[0045] Living insect pathogens, such as insect pathogenic viruses, bacteria, fungi, or nematodes, also may be de- livered to a target insect by inclusion in the liquid bait of the invention. Examples include strains of Baculovirus, other useful bacteria such as strains of Bacillus thuringiensis and Bacillus sphaericus, strains of the fungus Verticillium, and naturally occurring entomogenous nematodes, such as those sold under the mark "Biosafe" by Biosys, Inc. of Palo 5 Alto, California. Alternatively, insect controlling materials may be derived or recovered from insect pathogens. Examples of such materials include the exotoxin crystals isolatable from B. thuringiensis; certain processed material from Xenorhabis spp. nematodes, and certain bacterial fermentation products such as avermectins and the product sold under the mark "DiBeta" by Abbott Laboratories of North Chicago, Illinois. DiBeta, also known as "beta-exotoxin," is reported to be a biological insecticide derived from the bacterial fermentation of a strain of B. thuringiensis. All types 10 of insect control active ingredients may be used individually or in combination with other compatible insect control active ingredients. [0046] A preferred insect control active ingredient includes an effective amount of lithium perfluorooctane sulfonate as an insecticide. Consequently, when the insect attractant includes a salt of saccharin, as is preferred, it is necessary that that salt be the lithium salt of saccharin, in order to avoid precipitation of the lithium perfluorooctane sulfonate. 15 The lithium salt of saccharin may be prepared prior to formulation of the liquid bait, or it may be produced in situ by reacting saccharin and lithium carbonate as the bait is itself formulated. [0047] The method of the invention for attracting target insects includes the step of exposing to the insects a liquid bait of the sort disclosed, above. The bait may be. exposed in a cup or other container in which it may pool. However, in order both to avoid spillage and to further retard the drying of the liquid bait, it is preferred to contain the liquid bait 20 within a spill-resistant container and to restrict the atmosphere's access to the liquid bait. Even a porous pellet, such as a compacted food pellet ofthe sort conventionally used for laboratory animals, can serve as a substrate into which the liquid bait can be allowed to soak, the body of the pellet itself serving as a reservoir from which the liquid bait wicks to the surface of the pellet to be exposed to insects. [0048] The liquid insect bait of the invention can be prepared by conventional means of manufacturing liquid formu- 25 lations. Suitable methods include cold blending and other mixing procedures generally available to those skilled in the art. Particular procedures for making liquid insect bait in accord with the invention when a lithium salt of saccharin is a desired ingredient are set forth below in the examples. [0049] The liquid insect bait, the method of attracting target insects, and the method of controlling target insects of the invention will now be illustrated by way of the following examples, where all percentages are by dry weight and all 30 temperatures are expressed in °C unless otherwise indicated.

Example 1: Retardation of Evaporative Moisture Loss From Aqueous Liquid Preparations by Addition of Sorbitol

35 [0050] Fig. 1 is a graph that shows the results of a measurement of the drying rates of aqueous solutions of sorbitol. Solutions of sorbitol in deionized water were prepared containing from 0 to 70% sorbitol by dry weight, the solutions being prepared in 10% increments. Three gram samples of each solution then were placed in open weigh boats and exposed to the air for twenty-four hours, the experiment being run in triplicate. The boats and samples were weighed initially, and evaporative moisture loss was monitored by periodic subsequent weighings at the times indicated on the 40 graph. [0051] In general, the retardation of drying increased with the concentration of sorbitol, with a 20% sorbitol concentration being the least concentration at which a weight loss rate different from that of the solution having 0% sorbitol was detectable with statistical significance at p=0.05, with analysis of variance by the Bonferroni test for multiple com- parisons. This was deemed the minimal sorbitol concentration at which a practical advantage in the retardation of 45 drying was obtained.

Example 2: Manufacturing methods for certain preferred formulations of the insect bait of the invention

[0052] The formulations of the liquid insect bait of the invention disclosed below were made in accord with the fol- 50 lowing processes. The sorbitol used was a commercial aqueous solution of sorbitol containing 70% sorbitol by dry weight. Cornsweet 95 is an aqueous preparation containing a mixture of soluble sugars isolated from maize, of which 95% is fructose. Cornsweet 95 contains approximately 23% water. These commercial aqueous preparations will be referred to respectively as "sorbitol, 70%" and "Comsweet 95, 77%." Vitamin Mix F8095 is a water soluble vitamin mix for lepidoptera sold by Bio-Serv, a Holton Industries Company of Frenchtown New Jersey. Although Vitamin Mix F8095 55 was used, other vitamin preparations utilizable by insects could be substituted therefor. The commercial d-maltose preparation used was 90% d-maltose, 10% other dry materials and will be referred to simply as "d-maltose," The water used was deionized. [0053] Sample 1 was prepared by charging the sorbitol, 70% to a kettle. The sodium saccharin, sucrose, d-maltose,

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and Cornsweet 95, 77% were added and mixed until dissolved. The application of low heat (approximately 49°C) hastened the process. The sodium chloride, Vitamin Mix F8095, and water were mixed in a second container and, once the solids were dissolved, the container's contents were added to the kettle. The contents of the kettle were mixed well, to complete the preparation of Sample 1. 5 [0054] 'For Sample 2, the sorbitol, 70% was charged to a kettle, and the sucrose, d-maltose and Cornsweet 95, 77% were added and mixed until fully dissolved. The application of low heat (approximately 49°C) hastened the process. The saccharin and a portion of the water were mixed in a second kettle, the saccharin dispersing but not dissolving. The lithium carbonate was added to the second kettle and mixed, and a foaming reaction occurred. The contents of the second kettle were then added to the first kettle. The Vitamin F8095, lithium chloride, and the remaining water were 10 mixed in a third kettle, generating some heat. After they had dissolved, the contents of the third kettle were added to the first kettle and mixed well, to complete the preparation of Sample 2. [0055] For Samples 3-6, the sorbitol, 70% was charged to a kettle, followed by the sucrose, d-maltose, and Cornsweet 95, 77%. All of these were mixed until fully dissolved to produce a sorbitol intermediate mixture. The dissolving process was hastened by the application of low heat (approximately 49°C). The saccharin and water were charged to a second 15 kettle and mixed. The saccharin dispersed in the water but did not dissolve because saccharin is not water soluble. Then lithium carbonate was charged to the second kettle. A foaming reaction occurred as the lithium salt of saccharin was created, and the contents of the second kettle were mixed until the product was clear, to produce a lithium saccharin intermediate mixture. The contents of the second kettle were added to the sorbitol intermediate mixture of the first kettle. [0056] For Samples 3-6, the lithium perflurooctane sulfonate was charged to a third kettle with water and mixed until 20 dissolved. This solution was then added to the first kettle, now containing both the sorbitol and lithium saccharin intermediate mixtures. The ingredients of the first kettle were then again mixed thoroughly. Finally, the vitamins, lithium chloride, and additional water were placed in a fourth kettle and mixed to produce a vitamin/alkali metal salt intermediate mixture. Some heat was generated in the process. The vitamin/alkali metal salt intermediate mixture was mixed until dissolved and then was added to the contents of the first kettle to produce the final formulation. The entire batch was 25 then mixed thoroughly. [0057] Sample 7 was prepared by charging the sorbitol, 70% to a kettle, followed by the addition of the sucrose, d- maltose, Cornsweet 95, 77%, and sodium saccharin. These were mixed until dissolved, with low heat (49°C) added to speed the process. In a second container, the sodium chloride and Vitamin Mix F8095 were mixed with water until dissolved and then were added to the kettle. A 1% solution of fipronil in N-methyl pyrrolidone was prepared. Appropriate 30 amounts of this solution were added to achieve the desired concentration of fipronil in the final formulation, completing preparation of Sample 7. [0058] Samples 8-10 were prepared in the same manner as Sample 7, except that no sodium saccharin was added to the kettle and, instead of the fipronil solution, a water solution of boric acid was prepared and used in amounts sufficient to achieve the desired concentration of boric acid in the sample. 35 [0059] Sample 11 was prepared by adding the sorbitol, 70% to a kettle, followed by the sucrose, d-maltose, Cornsweet 95, 77%, and sodium saccharin, all of which was mixed at about 49°C until dissolved. In a second container, the sodium chloride and Vitamin Mix F8095 were dissolved in water and then added to the kettle. The sodium borate was then added to the kettle and mixed until fully dissolved, to complete preparation of Sample 11. [0060] In Table 1, the formulations are expressed in terms of the percentages of the commercial ingredients used, 40 in the form identified, above. In Table 2, the same formulations are described in terms of the calculated dry weight percentage of each, ingredient. Likewise, in Table 3, the formulations are expressed in terms of the percentages of the commercial ingredients used, in the form identified, above. In Table 4, the same formulations as disclosed in Table 3 are described in terms of the calculated dry weight percentage of each ingredient.

45 TABLE 1: Sample 1 Sample 2 Sample 3 Sample 4 Sample 5 Sample 6 Chemical Name Na Base Li Base Li Base 0.5% Li Base 1% Li Base 2% Alt.Li Base 1% Active Active Active Active

Water 3.320 6.000 6.000 6.000 8.000 4.500 Sorbitol, 70% 80.000 77.155 76.655 76.155 73.155 79.420 Sucrose 5.000 5.000 5.000 5.000 5.000 5.000 55 Comsweet 95, 6.700 6.700 6.700 6.700 6.700 6.700 77%

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TABLE 1: (continued) Sample 1 Sample 2 Sample 3 Sample 4 Sample 5 Sample 6 Chemical Name Na Base Li Base Li Base 0.5% Li Base 1% Li Base 2% Alt.Li Base 1% 5 Active Active Active Active d-Maltose 3.200 3.200 3.200 3.200 3.200 3.200 Saccharin, Na 1.000 Salt 10 Saccharin 0.969 0.969 0.969 0.969 Lithium 0.196 0.196 0.196 0.196 Carbonate Sodium 0.600 15 Chloride Lithium Chloride 0.600 0.600 0.600 0.600 Vitamin Mix 0.180 0.180 0.180 0.180 0.180 0.180 F8095 20 Lithium 0.500 1.000 2.000 1.000 Perfluorooctane Sulfonate

25 Total: 100.000% 100.000% 100.000% 100.000% 100.000% 100.000%

TABLE 2: 30 Sample 1 Sample 2 Sample 3 Sample 4 Sample 5 Sample 6 Chemical Name Na Base No Li Base No Li Base Li Base 1% Li Base 2% Alt. Li Base Active Active 0.5% Active Active Active 1% Active

35 Water 28.861 30.688 30.538 30.388 31.488 29.867 Sorbitol, dry 56.000 54.008 53.658 53.308 51.208 55.594 Sucrose 5.000 5.000 5.000 5.000 5.000 5.000

40 Cornsweet 95, 5.159 5.159 5.159 5.159 5.159 5.159 dry d-Maltose 3.200 3.200 3.200 3.200 3.200 3.200 Saccharin, Na 1.000 Salt 45 Saccharin 0.969 0.969 0.969 0.969 Lithium 0.196 0.196 0.196 0.196 Carbonate

50 Sodium 0.600 Chloride Lithium Chloride 0.600 0.600 0.600 0.600 Vitamin Mix 0.180 0.180 0.180 0.180 0.180 0.180 55 F8095

8 EP 0 802 727 B1

TABLE 2: (continued) Sample 1 Sample 2 Sample 3 Sample 4 Sample 5 Sample 6 Chemical Name Na Base No Li Base No Li Base Li Base 1% Li Base 2% Alt. Li Base 5 Active Active 0.5% Active Active Active 1% Active Lithium 0.500 1.000 2.000 1.000 Perfluorooctane Sulfonate

10 Total: 100.000% 100.000% 100.000% 100.000% 100.000% 100.000%

TABLE 3: 15 Sample 7 Sample 8 Sample 9 Sample 10 Sample 11 Chemical Name 0.001% Fipronil 2% Boric Acid 3% Boric Acid 5% Boric Acid 3% Na Borate

20 Deionized Water 3.317 3.000 3.000 3.000 3.220 Sorbitol, 70% 79.920 79.320 78.320 76.320 77.600 Sucrose 4.995 5.000 5.000 5.000 4.850 Cornsweet 95, 77% 6.693 6.700 6.700 6.700 6.499 25 d-Maltose 3.197 3.200 3.200 3.200 3.104 Saccharin, Na Salt 0.999 0.970 Sodium Chloride 0.599 0.600 0.600 0.600 0.582 30 Vitamin Mix F8095 0.180 0.180 0.180 0.180 0.175 N-Methyl Pyrrolidone 0.099 Fipronil 0.001

35 Sodium Borate 3.000 Boric Acid 2.000 3.000 5.000

Total: 100.000 100.000 100.000 100.000 100.000 40

TABLE 4: Sample 7 Sample 8 Sample 9 Sample 10 Sample 11

45 Chemical Name 0.001% Fipronil 2% Boric Acid 3% Boric Acid 5% Boric Acid 3%Na Borate

Water 28.832 28.337 28.037 27.437 27.995 Sorbitol, dry 55.944 55.524 54.824 53.424 54.320 50 Sucrose 4.995 5.000 5.000 5.000 4.850 Cornsweet 95, dry 5.154 5.159 5.159 5.159 5.004 d-Maltose 3.197 3.200 3.200 3.200 3.104

55 Saccharin, Na Salt 0.999 0.970 Sodium Chloride 0.599 0.600 0.600 0.600 0.582

9 EP 0 802 727 B1

TABLE 4: (continued) Sample 7 Sample 8 Sample 9 Sample 10 Sample 11 Chemical Name 0.001% Fipronil 2% Boric Acid 3% Boric Acid 5% Boric Acid 3%Na Borate 5 Vitamin Mix F8095 0.180 0.180 0.180 0.180 0.175 N-Methyl Pyrrolidone 0.099 Fipronil 0.001

10 Sodium Borate Boric Acid 2.000 3.000 5.000 3.000

Total: 100.000 100.000 100.000 100.000 100.000 15

Example 3: Preferred, "two kettle" manufacturing process

[0061] Although the four kettle process of Example 2 was in fact used for preparation of lithium perfluorooctane sulfonate materials such as Samples 3-6 for laboratory testing purposes, an example of a simplified and preferred 20 method of manufacture is as follows, referring to the commercial form of the ingredients, described in Example 2. [0062] In a first kettle, a first intermediate was made having the following ingredients: deionized water 42.03 %, lithium carbonate 2.08%, saccharin 10.18%, lithium chloride 6.31%, Vitamin Mix F8095 1.90%, and lithium perfluorooctane sulfonate 37.53%. The first intermediate was prepared by the following procedure: The water was placed in the kettle and agitation was begun. Next the lithium carbonate was added and agitated 25 until dissolved. Next the saccharin was added, one forth at a time to prevent excessive foaming. Agitation was increased to create a vortex, with agitation continued after each addition of saccharin until foaming had dissipated and the saccharin was dissolved. Agitation was continued for five minutes after the final addition of saccharin. Next, the lithium chloride was added, and the mixture was agitated until the solution was clear. Then the vitamin mixture was added and mixed until clear. Finally, the lithium perfluorooctane sulfonate was added and mixed for two minutes. 30 [0063] In a second kettle, a second intermediate was prepared including the following ingredients: sorbitol, 70%: 75.584%; sucrose 5%, Cornsweet 95, 77%: 6.7%; d-maltose: 3.2%. The second intermediate was prepared by the following procedure: First the sorbitol, 70% was charged to the kettle and agitation was begun. The kettle was heated to about 38-43°C. Next the Cornsweet 95, 77% was added and allowed to mix thoroughly with the sorbitol, 70%. Next the sucrose was 35 added, and the mixture was agitated until clear. Finally, the d-maltose was added, and the mixture was agitated for an additional five minutes to create the second intermediate. To produce the final formulation, the first intermediate was added to the second intermediate and mixed for five minutes. [0064] The following experiments were conducted to demonstrate the baiting characteristics of the indicated formulations: 40

EXPERIMENT 1: Feeding Tests: Ants

[0065] In separate tests, Pharaoh's Ants (Monomorium pharaonis) were allowed to select among simultaneously presented, aqueous liquid insect baits. The purpose was to verify that the ants would feed on the baits and to establish 45 the relative effects of the various combinations of attractants. The baits'were all generally similar in formulation, except that the insect attractants varied as indicated in the table, below. Consumption was measured by detecting weight loss. "Sorbitol" is sorbitol, 70%. "NaSaccharin" is the sodium salt of saccharin. "Sugar" refers to a mixture of d-maltose, Comsweet 95, 77%, and sucrose. "BSA" is bovine serum albumin, and "vitamin" is Vitamin Mix F8095.

50 TEST 1:

[0066]

SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION 55 Sorbitol 0.1372 1.22 Sorbitol/Sugars 5.0534 45.13

10 EP 0 802 727 B1

(continued)

SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION Sorbitol/NaSaccharin 1.0117 9.03 5 Sorbitol/NaSaccharin/NaCl 1.2550 11.21 Sorbitol/NaSaccharin/Vitamin 1.4222 12.70 Sorbitol/NaSaccharin/NaCl/Vitamin 2.3133 20.70 Total: 100

10 TEST 2:

[0067]

15 SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION Sorbitol 0,6561 11.30 Sorbitol/Sucrose 1.1499 19.80 Sorbitol/Sugars 0.6722 11.60

20 Sorbitol/Sugars/NaSaccharin 0.7815 13.40 Sorbitol/Sugars/NaCl/Vitamin 1.2454 21.40 Sorbitol/Sugars/NaSaccharin/NaCl/Vitamin 1.3073 22.50 Total: 100

25 TEST 3:

[0068]

Round A 30 SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION Sorbitol/Sucrose/NaCl/Vitamin 3.9343 40.40 Sorbitol/Sugars/NaSacc/NaCl/Vitamin 3.9951 41.00 Sorbitol/Sucrose/NaCl/Vitamin/BSA 1.8081 18.60 35 Total: 100

Round B 40 SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION Sorbitol/Sucrose/NaCl/Vitamin 4.0385 33.70 Sorbitol/Sugars/NaSacc/NaCl/Vitamin 6.0421 50.50 Sorbitol/Sucrose/NaCl/Vitamin/BSA 1.8938 15.80 45 Total: 100

Round C

50 SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION Sorbitol/Sucrose/NaCl/Vitamin 0.1350 10.60 Sorbitol/Sugars/NaSacc/NaCl/Vitamin 1.0143 79.50 Sorbitol/Sucrose/NaCl/Vitamin/BSA 0.1270 9.90 Total: 100 55

11 EP 0 802 727 B1

Round D SAMPLE DESCRIPTION (gm) CONSUMPTION % of TOTAL CONSUMPTION 5 Sorbitol/Sucrose/NaCl/Vitamin 0.0268 6.00 Sorbitol/Sugs/NaSacc/NaCl/Vitamin 0.3754 84.00 Sorbitol/Sucrose/NaCl/Vitamin/BSA 0.0448 10.00 Total: 100

10 EXPERIMENT 2: Feeding Test: Yellow Jacket Wasps

[0069] Wasps (Vespula germanica and V. maculifrons) were exposed individually for two hours either to a liquid insect bait comparable to Sample 1 of Example 2 or to a 40 weight percent solution of sucrose. Eight replications were run for each test situation set forth in the table, below. Consumption was measured in µl, corrected for evaporation 15 (the sucrose solution evaporating more rapidly than the sorbitol containing bait). When "starvation" is indicated, the wasps were isolated from food and water for the indicated time periods prior to the test exposure to the bait and sucrose solutions. The experiment indicates that, while the wasps fed more extensively on the sucrose solution, wasps do in fact feed on the sorbitol-containing liquid insect bait.

20 no stary 2 hr stary 4 hr stary Liquid Insect Bait 9.4 8.1 6.6 40% (wt/vol) Sucrose solution 21.0 32.1 17.8

25 EXPERIMENT 3: Pharaoh's Ants: Colony kill test

[0070] A colony kill test was conducted using a sodium base bait comparable to Sample 7 of Example 2, with 0.001% fipronil. Total numbers of dead Pharaoh's Ants per nest were counted for 6 weeks, with 3 replicate colonies per test. The experiment indicates that exposing the ants to the liquid insect bait of the invention, including an insecticide as an 30 insect control active ingredient, was effective in controlling ants.

Treatment Mean Dead Count bait 822.3 35 control 166.0

The observed difference was significant, as analyzed using a paired T-test (p=0.004).

EXPERIMENT 4: Population Monitoring Test: B. germania (German cockroach) 40 [0071] The cockroaches caught on sticky traps exposed for a 24 hour period were counted before and after availability of a porous rat food pellet material impregnated with the liquid insect bait of Sample 3 of Example 2. The figures represent the total insect catch on an array of four sticky traps in an apartment kitchen at a test site in the Czech Republic. The experiment indicates that exposing the roaches to the liquid insect bait of the invention, including an 45 insecticide as an insect control active ingredient, was effective in controlling roaches.

Total Number of Roaches Caught on Four Traps Week of Trial (week Males Females Nymphs; Instar 3-7 Nymphs; Instar 1-2 Total Reduction in % 50 0=BT, weeks 2ff=AT) 0 11 12 23 78 124 - - 2 2 2 5 11 20 83.9 55 3 0 0 2 4 6 95.2 4 2 1 4 1 8 94.5 6 0 0 0 0 0 100.0

12 EP 0 802 727 B1

(continued)

Total Number of Roaches Caught on Four Traps Week of Trial (week Males Females Nymphs; Instar 3-7 Nymphs; Instar 1-2 Total Reduction in % 5 0=BT, weeks 2ff=AT) 0 11 12 23 78 124 8 0 0 0 0 0 100.0

10 "BT" and "AT" mean, respectively, before and after initiation of treatment.

EXPERIMENT 5: Colony Kill Tests

[0072] Liquid insect baits substantially the same as Samples 8-10 of Example 2 were presented to the insects of 15 test colonies of Pharaoh's Ants, with each test condition run in quadruplicate. Ant populations were counted just prior to bait presentation and thereafter at weekly intervals. The normal diet under which the ants had been reared was used as a control. No controlling effect on the ants was observed, and the experiment was terminated at the end of the third week. It is unclear what these negative results indicate, if anything. They may indicate that boric acid as an insect control active ingredient is ineffective against ants under the conditions of the experiment. The results contrast with 20 those of Experiment 3, in which fipronil was the insecticide used. [0073] From an examination of the above specification and examples, those skilled in the art will be aware of mod- ifications and variations of the invention immediately substitutable for the steps and materials disclosed. Such modifi- cations and variations may fall within the scope and breadth of the invention. Therefore, the invention is not to be deemed limited except as set forth in the claims, below. 25 Industrial Applicability

[0074] As is discussed, above, insect baits in liquid form have advantages for use with insects requiring or preferring liquid food for ingestion or digestion. Such baits are industrially useful for insect monitoring and control in research, 30 commercial, and domestic contexts. For such baits to be optimally useful, they must remain liquid for as long as possible. The present invention addresses that need for a liquid insect bait of retarded drying time.

Claims 35 1. A liquid bait for target insects comprising

a) sorbitol dissolved in an amount of water sufficient to form an aqueous liquid carrier, the dissolved sorbitol being in a concentration great enough to be effective as a humectant to retard drying of the liquid carrier and 40 small enough that the liquid carrier remains liquid upon the addition of any attractants or other ingredients of the liquid bait, wherein the dry weight percent of sorbitol is not less than 20 % and not more than 65 %, of the bait, and

b) at least one insect attractant dissolved, dispersed, suspended, or emulsified in the liquid carrier in an amount 45 effective to attract the target insects.

2. The liquid bait of claim 1 wherein the dry weight percent of sorbitol is not less than 20 % and not more than 60 % of the bait.

50 3. The liquid bait of claim 1 wherein the dry weight percent of sorbitol is not less than 35 % and not more than 60 % of the bait.

4. The liquid bait of claim 1 wherein the dry weight percent of sorbitol is not less than 50 % and not more than 60 % of the bait. 55 5. The liquid bait of any of claims 1 to 4 wherein the insect attractant is selected from the group consisting of insect attractive pheromones and scents, insect ingestable carbohydrates, proteins, fats, oils, inorganic salts, artificial

13 EP 0 802 727 B1

sweeteners, vitamins, natural and artificial flavors, and combinations thereof.

6. The liquid bait of any of claims 1 to 4 wherein the insect attractant is selected from the group consisting of sucrose, fructose, d-maltose, saccharin, an alkali metal salt of saccharin, alkali metal chlorides, vitamines, and combinations 5 thereof.

7. The liquid bait of any of claims 1 to 6 including in addition c) an effective amount of an insect control active ingredient selected from the group consisting of insecticides, insect growth regulators, chitin inhibitors, insect pathogens, insect-controlling materials derived from insect path- 10 ogens, and combinations thereof.

8. The liquid bait of claim 7 wherein the insect control active ingredient is selected from the group consisting of lithium perfluorooctane sulfonate, d-phenothrin, N-ethyl perfluorooctanesulfonamide, fipronil, avermectin, chlorpyrifos, phoxim, acephate, hydramethylnon, boric acid, sodium borate, silica aerogel, pyrethrum, transfluthrin, cyfluthrin, 15 deltamethrin, fenvalerate, propoxur, carbaryl, bendiocarb, fenoxycarb, dioxycarb, lindane, aldrin, dieldrin, endrin, insect pathogenic viruses, bacteria, fungi and nematodes and insect-controlling materials derived therefrom, and combinations thereof.

9. The liquid bait of claim 6, wherein the target insects are ants and the insect attractant includes, in combination, 20 sucrose, fructose, and d-maltose.

10. The liquid bait of claim 9 wherein the insect attractant also includes an alkali metal salt of saccharin, and an alkali metal chloride.

25 11. The liquid bait of claim 9 wherein the insect attractant also includes vitamins.

12. The liquid bait of claim 6 wherein the target insects are ants and

the insect attractant (b) includes, in combination, sucrose, fructose, d-maltose, the lithium salt of saccharin, 30 and lithium chloride; and the insect control active ingredient (c) includes an effective amount of lithium perfluorooctane sulfonate.

13. The liquid bait of claim 12 wherein the insect attractant (b) includes saccharin and lithium carbonate, at least a portion of which reacts in situ to produce the lithium salt of saccharin of the liquid bait. 35 14. The liquid bait of claim 13 wherein the insect attractant (b) includes vitamins.

15. The liquid bait of any of claims 12 to 14, wherein

40 the insect attractant (b) includes in combination, sucrose, fructose, d-maltose, the lithium salt of saccharin, lithium chloride, and vitamins; and the insect control active ingredient (c) includes an effective amount of lithium perfluorooctane sulfonate.

16. The liquid bait of any of claims 12 to 15, wherein the liquid bait is held within a porous body as a reservoir for 45 holding the bait.

17. A method of attracting target insects comprising the step of exposing to the insect the liquid bait for target insects of any of claims 1 to 16.

50 18. The method of claim 17 wherein the target insects are hymenopteran insects and the insect attractant (b) is selected from the group consisting of sucrose, fructose, d-maltose, saccharin, an alkali metal salt of saccharin, alkali metal chlorides, vitamins, and combinations thereof.

19. The method of claim 18 wherein the target insects are ants and the insect attractant (b) includes, in combination, 55 sucrose, fructose, and d-maltose.

20. The method of claim 19 wherein the insect attractant (b) also includes an alkali metal salt of saccharin, and an alkali metal chloride.

14 EP 0 802 727 B1

21. The method of claim 19 wherein the insect attractant (b) also includes vitamins.

Revendications 5 1. Appât liquide pour insectes cibles comprenant

a) du sorbitol dissous dans une quantité d'eau suffisante pour former un vecteur aqueux liquide, le sorbitol dissous étant à une concentration suffisamment importante pour qu'il soit efficace en tant qu'humectant de 10 façon à retarder le dessèchement du vecteur liquide et suffisamment faible pour que le vecteur liquide reste liquide après addition des agents attirant les insectes ou des autres ingrédients de l'appât liquide, le pourcentage du sorbitol exprimé en masse sèche n'étant pas inférieur à 20 % et pas supérieur à 65 % par rapport à l'appât, et b) au moins un agent attirant les insectes dissous, dispersé, en suspension ou en émulsion dans le vecteur 15 liquide en une quantité efficace pour attirer les insectes cibles.

2. Appât liquide selon la revendication 1, dans lequel le pourcentage de sorbitol exprimé en masse sèche n'est pas inférieur à 20 % et n'est pas supérieur à 60 % par rapport à l'appât.

20 3. Appât liquide selon la revendication 1, dans lequel le pourcentage de sorbitol exprimé en masse sèche n'est pas inférieur à 35 % et n'est pas supérieur à 60 % par rapport à l'appât.

4. Appât liquide selon la revendication 1, dans lequel le pourcentage de sorbitol exprimé en masse sèche n'est pas inférieur à 50 % et n'est pas supérieur à 60 % par rapport à l'appât. 25 5. Appât liquide selon une quelconque des revendications 1 à 4, dans lequel l'agent attirant les insectes est choisi dans le groupe constitué par les phéromones et les odeurs attirant les insectes, les hydrates de carbone, les protéines, les graisses, les huiles, les sels minéraux, les édulcorants artificiels, les vitamines, les arômes naturels et artificiels susceptibles d'être ingérés par les insectes et leurs combinaisons. 30 6. Appât liquide selon une quelconque des revendications 1 à 4, dans lequel l'agent attirant les insectes est choisi dans le groupe constitué par le saccharose, le fructose, le d-maltose, la saccharine, un sel de métal alcalin de la saccharine, les chlorures de métaux alcalins, les vitamines et leurs combinaisons.

35 7. Appât liquide selon une quelconque des revendications 1 à 6 incluant en outre c) une quantité efficace d'un principe actif anti-insectes choisi dans le groupe constitué par les insecticides, les régulateurs de la croissance des insectes, les inhibiteurs de chitine, les agents pathogènes pour les insectes, les matières anti-insectes dérivées d'agents pathogènes et leurs combinaisons.

40 8. Appât liquide selon la revendication 7, dans lequel le principe actif anti-insectes est choisi dans le groupe constitué par le perfluorooctanesulfonate de lithium, la d-phénothrine, le N-éthylperfluorooctanesulfonamide, le fipronil, l'avermectine, le chlorpyrifos, le phoxim, l'acéphate, l'hydraméthylnon, l'acide borique, le borate de sodium, l'aé- rosilicagel, le pyrèthre, la transfluthrine, la cyfluthrine, la deltaméthrine, le fenvalérate, le propoxur, le carbaryle, le bendiocarb, le fénoxycarb, le dioxycarb, le lindane, l'aldrine, la dieldrine, l'endrine, les virus, les bactéries, les 45 champignons et les nématodes pathogènes pour les insectes et les matières anti-insectes dérivées de ces agents, et leurs combinaisons.

9. Appât liquide selon la revendication 6, dans lequel les insectes cibles sont des fourmis et l'agent attirant les insectes inclut, en combinaison, le saccharose, le fructose et le d-maltose. 50 10. Appât liquide selon la revendication 9, dans lequel l'agent attirant les insectes inclut en outre un sel de métal alcalin de la saccharine et un chlorure de métal alcalin.

11. Appât liquide selon la revendication 9, dans lequel l'agent attirant les insectes inclut également des vitamines. 55 12. Appât liquide selon la revendication 6, dans lequel les insectes cibles sont des fourmis et l'agent attirant les insectes (b) inclut, en combinaison, du saccharose, du fructose, du d-maltose, du sel de sodium de la saccharine et du chlorure de lithium ; et le principe actif anti-insectes (c) inclut une quantité efficace de perfluorooctanesulfonate

15 EP 0 802 727 B1

de lithium.

13. Appât liquide selon la revendication 12, dans lequel l'agent attirant les insectes (b) inclut de la saccharine et du chlorure de lithium dont au moins une partie réagissent in situ pour produire le sel de lithium de la saccharine de 5 l'appât liquide.

14. Appât liquide selon la revendication 13, dans lequel l'agent attirant les insectes (b) inclut des vitamines.

15. Appât liquide selon une quelconque des revendications 12 à 14, dans lequel l'agent attirant les insectes (b) inclut, 10 en combinaison, du saccharose, du fructose, du d-maltose, du sel de lithium de la saccharine, du chlorure de lithium et des vitamines ; et le principe actif anti-insectes (c) inclut une quantité efficace de perfluorooctanesulfonate de lithium.

16. Appât liquide selon une quelconque des revendications 12 à 15, dans lequel l'appât liquide est contenu dans un 15 corps poreux servant de réservoir contenant l'appât.

17. Méthode pour attirer des insectes cibles comprenant l'étape d'exposition, à l'insecte, de l'appât liquide pour les insectes cibles selon une quelconque des revendications 1 à 16.

20 18. Méthode selon la revendication 17, dans laquelle les insectes cibles sont des hyménoptères et l'agent attirant les insectes (b) est choisi dans le groupe constitué par le saccharose, le fructose, le d-maltose, la saccharine, un sel de métal alcalin de la saccharine, les chlorures de métaux alcalins, les vitamines et leurs combinaisons.

19. Méthode selon la revendication 18, dans laquelle les insectes cibles sont des fourmis et l'agent attirant les insectes 25 (b) inclut, en combinaison, du saccharose, du fructose et du d-maltose.

20. Méthode selon la revendication 19, dans laquelle l'agent attirant les insectes (b) inclut également un sel de métal alcalin de la saccharine et un chlorure de métal alcalin.

30 21. Méthode selon la revendication 19, dans laquelle l'agent attirant les insectes (b) inclut également des vitamines.

Patentansprüche

35 1. Flüssiger Köder (Lockmittel) für Target-Insekten, der umfasst

a) Sorbit, gelöst in einer Menge Wasser, die ausreicht, um einen wäßrigen flüssigen Träger zu bilden, in dem das gelöste Sorbit in einer Konzentration vorliegt, die groß genug ist, um als Feuchthaltemittel wirksam zu sein zur Verzögerung der Eintrocknung des flüssigen Trägers, und die klein genug ist, so daß der flüssige 40 Träger nach Zugabe von beliebigen Lockstoffen oder anderen Ingredientien zu dem flüssigen Köder (Lock- mittel) flüssig bleibt, wobei der Trokkengewichts-Prozentsatz an Sorbit nicht weniger als 20 % und nicht mehr als 65 %, bezogen auf den Köder, beträgt, und

b) mindestens einen Insekten-Lockstoff, der in dem flüssigen Träger in einer Menge gelöst, dispergiert, sus- 45 pendiert oder emulgiert ist, die wirksam ist, um die Target-Insekten anzulocken.

2. Flüssiger Köder nach Anspruch 1, worin der Trockengewichts-Prozentsatz an Sorbit nicht weniger als 20 % und nicht mehr als 60 %, bezogen auf den Köder, beträgt

50 3. Flüssiger Köder nach Anspruch 1, worin der Trockengewichts-Prozentsatz an Sorbit nicht weniger als 35 % und nicht mehr als 60 %, bezogen auf den Köder, beträgt.

4. Flüssiger Köder nach Anspruch 1, worin der Trockengewichts-Prozentsatz an Sorbit nicht weniger als 50 % und nicht mehr als 60 %, bezogen auf den Köder, beträgt. 55 5. Flüssiger Köder nach einem der Ansprüche 1 bis 4, worin der Insektenlockstoff ausgewählt wird aus der Gruppe, die besteht aus Insekten anziehenden Pheromonen und Duftstoffen, von Insekten aufnehmbaren Kohlehydraten, Proteinen, Fetten, Ölen, anorganischen Salzen, künstlichen Süßungsmitteln, Vitaminen, natürlichen und künstli-

16 EP 0 802 727 B1

chen Aromastoffen und Kombinationen davon.

6. Flüssiger Köder nach einem der Ansprüche 1 bis 4, worin der Insektenlockstoff ausgewählt wird aus der Gruppe, die besteht aus Saccharose, Fructose, d-Maltose, Saccharin, einem Alkalimetallsalz von Saccharin, Alkalimetall- 5 chloriden, Vitaminen und Kombinationen davon.

7. Flüssiger Köder nach einem der Ansprüche 1 bis 6, der außerdem enthält c) eine wirksame Menge eines Insektenbekämpfungs-Wirkstoffes, ausgewählt aus der Gruppe, die besteht aus Insektiziden, Insekten-Wachstumsregulatoren, Chitin-Inhibitoren, Insekten-Pathogenen, Insekten-Kontrollmate- 10 rialien, die von Insekten-Pathogenen abgeleitet sind, und Kombinationen davon.

8. Flüssiger Köder nach Anspruch 7, worin der Insektenbekämpfungs-Wirkstoff ausgewählt wird aus der Gruppe, die besteht aus Lithiumperfluorooctansulfonat, d-Phenothrin, N-Ethylperfluorooctansulfonamid, Fipronil, Avermectin, Chlorpyrifos, Phoxim, Acephat, Hydramethylnon, Borsäure, Natriumborat, Silicaaerogel, Pyrethrum, Transfluthrin, 15 Cyfluthrin, Deltamethrin, Fenvalerat, Propoxur, Carbaryl, Bendiocarb, Fenoxycarb, Dioxycarb, Lindan, Aldrin, Diel- drin, Endrin, Insekten-pathogenen Viren, Bakterien, Fungi und Nematoden und davon abgeleiteten Insekten-Kon- trollmaterialien und Kombinationen davon.

9. Flüssiger Köder nach Anspruch 6, worin die Target-Insekten Ameisen sind und der Insektenlockstoff Saccharose, 20 Fructose und d-Maltose in Kombination umfasst.

10. Flüssiger Köder nach Anspruch 9, worin der Insektenlockstoff außerdem ein Alkalimetallsalz von Saccharin und ein Alkalimetallchlorid umfasst.

25 11. Flüssiger Köder nach Anspruch 9, worin der Insektenlockstoff außerdem Vitamine umfasst.

12. Flüssiger Köder nach Anspruch 6, worin die Target-Insekten Ameisen sind und der Insektenlockstoff (b) Saccha- rose, Fructose, d-Maltose, das Lithiumsalz von Saccharin und Lithiumchlorid umfasst und der Insektenbekämp- fungs-Wirkstoff (c) eine wirksame Menge Lithiumperfluorooctansulfonat umfasst. 30 13. Flüssiger Köder nach Anspruch 12, worin der Insektenlockstoff (b) Saccharin und Lithiumcarbonat umfasst, wobei mindestens ein Teil davon in situ reagiert unter Bildung des Lithiumsalzes von Saccharin des flüssigen Köders.

14. Flüssiger Köder nach Anspruch 1, worin der Insektenlockstoff (b) Vitamine umfasst. 35 15. Flüssiger Köder nach einem der Ansprüche 12 bis 14, worin der Insektenlockstoff (b),in Kombination, Saccharose, Fructose, d-Maltose, das Lithiumsalz von Saccharin, Lithiumchlorid und Vitamine umfasst und der Insektenbe- kämpfungs-Wirkstoff (c) eine wirksame Menge Lithiumperfluorooctansulfonat umfasst.

40 16. Flüssiger Köder nach einem der Ansprüche 12 bis 15, worin der flüssige Köder innerhalb eines porösen Formkör- pers als Reservoir für die Aufnahme des Köders festgehalten wird.

17. Verfahren zum Anlocken von Target-Insekten, das eine Stufe umfasst, bei der man das Insekt dem flüssigen Köder für Target-Insekten nach einem der Ansprüche 1 bis 16 aussetzt. 45 18. Verfahren nach Anspruch 17, worin die Target-Insekten Hymenopteran-Insekten sind und der Insektenlockstoff (b) ausgewählt wird aus der Gruppe, die besteht aus Saccharose, Fructose, d-Maltose, Saccharin, einem Alkali- metalsalz von Saccharin, Alkalimetallchloriden, Vitaminen und Kombinationen davon.

50 19. Verfahren nach Anspruch 18, worin die Target-Insekten Ameisen sind und der Insektenlockstoff (b) Saccharose, Fructose und d-Maltose in Kombination umfasst.

20. Verfahren nach Anspruch 19, worin der Insektenlockstoff (b) außerdem ein Alkalimetallsalz von Saccharin und ein Alkalimetallchlorid umfasst. 55 21. Verfahren nach Anspruch 19, worin der Insektenlockstoff (b) außerdem Vitamine umfasst.

17 EP 0 802 727 B1