KR870001843B1 - Apparatus and method for attracting & killing insect chosen - Google Patents

Abstract

A selective insect control device is presented. The device for attracting specific insects to a predetermined site comprises (a) synthetic resin body contg. a pheromone(I) which is an attractant for the male or female insects, and (b) means for controlled release of (I) vapour form at a rate sufficient to attract the insects. The device minimises the amt. of insecticide per unit surface area and the amt. of insecticide required to obtain the maximum effect on the insect population at the predetermined site.

Description

Method and apparatus for attracting selected insects

1 is an isometric view of an embodiment of the invention.

FIG. 2 is a longitudinal sectional view taken along line 2-2 of FIG.

3-6 are graphical representations given under various conditions.

7 is an actual shape used.

The present invention relates to insecticidal devices and methods, and more particularly to a device for inducing insecticidal insects.

U.S. Patent 3,016,320. 3,501,566. 3,732,282. 3,755,563. 4,017,030. 4,075,320. And 4,227,333. This is typical of what is described on page 17 of the 1977 "Deltiering" Progress Programmer.

It is common to use water, an essential oil consisting of pheromones, in insecticides or insect traps to attract corresponding pests. However, most of the conventional methods and apparatus have used relatively large amounts of pesticides and have spread over relatively large areas. This volume and spreading wasted raw materials and also affected the environment.

The apparatus and method of the present invention are directed to minimizing the amount of insecticide applied and the area of application of pesticides necessary for maximum effect on insect populations within a given area. In this way, farmers can save money and labor with efficiency, and are not able to breed as pest control laws.

The present invention can be summarized as follows: The present invention includes a pheromone-containing synthetic resin body which is a handout for one of the selected male and female insects; Pheromones contained in the body; A device for selectively attracting insects in certain zones comprising means for releasing pheromones from the body in vapor form to attract one of the male and female, wherein the amount is effective to kill the insects on at least a portion of the exterior of the body. It relates to a device for attracting selected insects, characterized in that it comprises a coating of insecticides. By "insect effective amount" is meant an amount that causes insecticide to reach the lethal or uncrossed level.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an isometric view of device 20, which is a preferred embodiment of the present invention. The device 20 consists of a capillary filament 2 having a lumen sealed at one end by means such as a plug 6 composed of heat seal or epoxy cement or the like. The device 20 comprises an adhesive coating 1 on at least part of the exterior of the filament 2. The adhesive coating 1 attaches the device 20 to the leaves and contains a pesticide effective amount of pesticide.

FIG. 2 is a longitudinal sectional view of the device 20 along line 2-2 of FIG. 1, in which lumen 4 of the pheromone 8 is accommodated in the lumen 4 of the filament 2. The pheromone 8 preferably has a gas-liquid interface 10 that is curved at the opening end with respect to the material of the filament 2. Pheromones can be evaporated so that the pheromone in vapor form is released at a controlled rate depending on the properties of the pheromone 8 and the surface area of the gas-liquid interface 10. The conventional apparatus 20 without the coating 1 can be manufactured by the method described in US Pat. No. 4,017,030.

The device 20 having the coating 1 improved by insecticide coating is an improved device of the invention. The coating 1 can be coated on the outer wall of the filament 2 by dipping, spraying, brushing and various coating techniques.

The filament 2 is advantageously made of synthetic polymer resin. Representative of the above resins are polyolefins such as polyethylene, polypropylene and the like, polyacrylic polyesters such as polyethylene and terephthalate: polyamide and the like. It is particularly preferable to use a biodegradable resin.

Pheromones 8 are selected from a large number of known pheromones depending on the insects attracted by the method of the present invention. Sex pheromones have been produced that attract various insects: the book "Insect Hormone (1972)" by Jacobson, an academic publisher in New York City, NY, and the Florida Institute of Food and Agricultural Sciences, University of Florida, in privatesville, Florida. The "Interpretation of Insect Sex Pheromones" (August 1975) by Meyer and McLorin, Monograph Series 16, Agricultural Experiment Bureau, is described in the method for producing sex pheromones.

The insecticidal coating 1 is selected according to the effective insecticide, and the pheromone 8 is an insect handout. Insecticides which are effective against certain insects and which have a lethal dose are generally known and described in US Pat. Nos. 3,699,111 and 3,745,215, which can be determined by trial and error techniques.

In the device according to the invention, the pesticide of the coating 1 is a composition comprising an "adhesive". "Adhesive" means a composition or compound that attaches the device 20 to the leaves of a plant. This adhesive is known and has been used in the prior art for adhering the filament material to plants. (See above dithering.) The preferred adhesive component in the insecticide coating 1 is a composition such as polybutene resin or the like.

The method of the present invention is to disperse the device 20 in some place and attract it with the pheromone 8 to contact the insecticidal coating 1 so that it cannot be killed or crossed. Insects attracted by the pheromone 8 vapor released from the device 20 are in frequent contact with the device. This contact, in particular in contact with the shell 1, is in contact with the lethal or quasi-total dose of the pesticide and eventually dies. In other words, if the pheromone 8 is a handout for the selected male insect, part of the male insect is killed in place. Therefore, the reproduction cycle of the insect is inhibited, and the reproduction of the insect is suppressed.

7 shows the apparatus of FIG. 1 attached to the leaves of the plant. The following examples describe the use and manufacturing process and method of the present invention, and illustrate the best mode of the invention of the present invention, but do not limit the scope of the present invention.

Example 1

A number of polyester microtubes are provided, which are manufactured according to US Pat. No. 4,017,030 and are pheromones of the Pectinphora gossypiella (Z, Z) -7,11- and (Z, E) Fill with a 1: 1 mixture of 7,11-hexadecadien-1-ol acetate (Control Release Division Novart Charlie, Albany International, Albany, NY). A portion of the tube was taken per 5 g polybutene emulsion. (Biotack 3, Severon) Pink cottonworms are coated with a mixture of lethal pesticides (Ambus, ICI: 0.001 g of active ingredient) which are lethal. The other tube is covered with polybutene emulsion only for comparison. The cotton fields of Lone Butt, Arizona, were divided into approximately 40 acre treatment zones and randomly selected to distribute the coated microtubes. Six zones disperse the microtube coated with a mixture of adhesive and pesticide (“device of the invention”) and six zones distribute the comparative microtube. Three zones near 120 acres in total were left untreated except for conventional pesticide treatment for comparison with the comparison zone. Dispersion of the present invention and the above-mentioned other invention device was processed using 20 g of no-mart and 3 pints of bio-tack per acre. The amount used in the area of Ambush was 0.28 ounces / acre, or 0.0044 lbs a.i./acre. All eight treatments were performed about two weeks before the cotton growing season.

Five delta pheromone traps were located in 40-acre treatment zones (or 30 and 15 untreated zones) to monitor male pink cotton beetle moths. This trap was observed daily from June to October.

The mating table test was conducted twice a week from June to September. There are three tables in each treatment zone, with every search zone and treatment zone group used every other day. Every night, nine uncrossed females raised in the laboratory were placed on the table with one wing marked. The females were recollected before sunrise and examined for the presence of vesicles.

By following the observation cycle, the mating capacity is somewhat reduced, and it is known that there is no difference in comparison with the conventional trapping and the present invention. There was also a significant reduction in crosses and traps in the treatment zone. The average population of pink cottonworm moths trapped in the trap when observed in each zone is shown in FIG. 4 shows the number of female moths marked on their mated wings when observed in each test zone. This chart shows that the total moth density is very low when observed. 3 and 4 show no significant difference between the device of the present invention and the conventional device at the low individual density of moths.

Example 2

In Hakuhala, Arizona, random sampling of 100 square acres of Pima and delta pine varieties revealed that at least 30% of pink cotton moths were damaged. The farm was divided into three and delta pheromone traps were installed in each zone to monitor male pink cottonworm moths.

Pretreatment towette (invaded flower) water was carried out by sampling from the farm in the following manner. Each of the three zones was divided into south and north. One row was sampled for only one test. The north side is the delta pine row and the south row is the castor column. Five zones of three hundred feet in each of the six rows (two per zone) were defined so that not only the total number of flowers but also the number of towjets could be used to determine the density and percentage of larvae per acre.

The north zone (north of the three zones) was not treated, and the middle one of the three zones used the conventional apparatus described in Example 1 above (18 grams of no-mart and 3 pints / acre of biomass). -Tag). A third zone in the south was added by the same amount of 0.21 ounce / acre (ie 0.004 lb. a.i./acre) of Nommat and Bio-Tag in Ambus, the device form of the invention described in Example 1 above.

After three to four weeks of treatment, the invaded number of cotton pods was sampled by the following method. The total number of pods (10-20 days) was counted in the separate zones used for pretreated low jet water. Fifty pods were collected from this zone to measure larval invasion, and the larvae invasion and density per acker could be measured.

The mating table was post-processed eight times in the same manner as in Example 1. Each zone has 10 tables, each with 8 uncrossed females.

On the day of treatment, the invasive water showed twice as many moths as the area in which the device of the invention was distributed than in the area where the device was distributed. The first day invasive water is shown in Figure 5 of the accompanying drawings and the post-treatment numbers showed a 54.7% reduction in the invasion level (larvae / acres) in the area treated with the device of the present invention. The zone treated with the conventional device showed a 9% invasion reduction compared to the comparative zone with an increase in invasion of 25.4%. The figures after the treatment are shown in FIG.

The mating table shows distinct differences in all three zones in the number of females bred.

In this example, there was a marked difference between the treatment with the prior invention and the treatment with the present invention. This difference is shown in the invasion and cross table data.

The use of Ambus in the bio-tac coating reduces the number of males that meet females, thus increasing the efficiency of pheromone maturation that inhibits insect reproduction.

Claims (4)

A body made of synthetic resin and having a lumen therein; A pheromone received in the lumen of the body as a handout attracting one of the male and female of the selected insect; A device for selectively attracting insects in a predetermined zone consisting of means for releasing vaporized pheromones from the body at a controlled rate to attract one of the male and female of the insect, comprising: at least some of the exterior of the body And a coating of insecticide in an amount sufficient to effectively kill the insect. A method according to claim 1, wherein the insects attracted to the device are brought into contact with the insecticide by dispersing the device according to claim 1. Capillary filaments; An apparatus for attracting selected insects in a predetermined zone comprising pheromone of a selected insect contained in said filament and released into the vapor at a controlled rate of said filament and an adhesive on the outer surface of said filament, wherein A device for attracting selected insects, characterized in that an effective amount of insecticide is coated on the outer surface to kill the insect. The device of claim 2, wherein the pesticide is mixed with an adhesive.

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