FR2503537A1 - Selective insect control device - comprising plastics body contg. pheromone and coated with insecticide (ZA 02.08.82) - Google Patents

Abstract

Device for attracting specific insects to a predetermined site comprises (a) 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) in vapour form at a rate sufficient to attract the insects. The improvement is that at least part of the external surface of the body has a coating contg. an insecticide in an amt. sufficient to control the insects (i.e. kill them or render them incapable of reproduction). The device is stated to minimise 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

 The present invention relates to methods and devices for killing insects and more particularly relates to a device for attracting and killing selected insects.

 US Patents 3,016,329, 3,501,566, 3,732,282, 3,755,563, 4,017,030, 4,075,320 and 4,227,333 describe representative devices of the prior art. Among literature other than patents, Del Deterling's article in the February 1977 issue of Progressive Farmer, page 107, is also relevant to this technical area.

 In general, sexually attractive types of pheromones have been used to decoy and attract insects to a designated place where an insecticide or insect trap is placed. However, most of the prior art processes use relatively large amounts of insecticides, usually spread over relatively large areas. These quantities and distributions are a waste of material and, in some cases, have an adverse effect on the environment.

 The present invention provides a device and method that minimizes the amount of insecticide used per unit area and the amount of insecticide required to achieve the maximum effect on the insect population in a given site. This high degree of efficiency makes it possible to save money and manpower, protects the environment and, moreover, is complementary to the anti-coupling technique used as a method of destroying insects.

 The invention relates to a device for attracting selected insects to a predetermined site, comprising a synthetic polymer resin body for containing an attractive pheromone for one of the two genera, male or female of the selected insects; a pheromone contained in this body and means for releasing the pheromone and its container, in a controlled manner, in the form of vapors, at a flow rate capable of attracting the male or female insect, which comprises a coating of an effective insecticide for the control of insects on at least a portion of the outer surface of the body.

 The term "effective amount for insect control" is used herein, including in the claims, to mean an amount which is lethal to an insect exposed to the insecticide and at least suicides, but sufficient to render the insect susceptible. insect unable to mate.

 The features and advantages of the invention api better appear in the following description.

In the accompanying drawings, given solely as examples,
FIG. 1 is a perspective view of a preferred embodiment of the improved device according to the invention.
FIG. 2 is a sectional view taken along line 2-2 of FIG. 1
- Figs. 3 to 6 are graphical representations of the variations in the number of insect counts at various periods and under various conditions, according to an exemplary implementation of the invention
FIG. 7 is a view of the device of FIG. 1 in use position.

 Fig. 1 of the accompanying drawings is a perspective view of a device 20 constituting a preferred embodiment of the invention. This device 20 comprises a capillary tubular filament 2 which delimits a conduit 4 feré at a first end by heat-sealing or by a plug 6, for example, a plug of epoxy glue or other similar material. The device 20 comprises an adhesive coating 1 deposited on at least a portion of the outer face of the filament 2. This adhesive coating 1 adheres the device 20 to a sheet or other part of a plant and contains a certain amount of effective insecticide for insect control.

 Further details of the device 20 appear in Fig. 2 which is a vertical sectional view taken along the lines 2-2 of FIG. 1. As shown in this Fig.2, the conduit 4 of the filament 2 is filled with a pheromone 8 of a sexually attractive type. The pheromone 8 preferably has, at the open end, a meniscus 10 of the wetting type vis-à-vis the material of which the filament 2 is formed. Pheromone 8 is vaporizable and vapors of this product are released through the open end of filament 2 at a controlled rate which is determined by the nature of pheromone 8 and the area of the meniscus 10. The device 20 without its liner 1 can be manufactured by known methods and techniques, for example according to US Pat. No. 4,017,030.

 or the coating 1, the device 20 constitutes a device according to the invention, which is improved by the presence of the insecticide coating 1. The coating 1 can be attached to the outer surface of the filament 2 by any known coating technique such as the immersion, spraying, brush coating or other similar techniques.

 The filament 2 is advantageously made of a synthetic polymeric resin. Representative examples of such resins are polyolefins such as polyethylene, polypropylene and the like; polyacrylics, polyesters, such as polyethylene terephthalate, polyamides and the like. Biodegradable resins are preferably used.

 The pheromone 8 is chosen from the many known pheromones, according to the species of insects which it is a question of attracting and killing by the method according to the invention.

Sex pheromones capable of attracting a wide range of insect varieties and the mode of preparation of these pheromones were known, see for example Jacobson's "Insect Sex Pheromones", Academic Press,
NY, NY (1972) and Mayer and McLaughlin's "An annotated compendium of insect sex pheromones", Series of Monographs of Florida Agricultural Experimentation Stations, No. 06, Institute of Food and Agricultural Science, University of Florida; Gainesville, Florida, August 1975.

 The insecticide coating 1 is chosen from those which are capable of effectively killing insects for which pheromone 8 constitutes an attractant. Insecticides that are effective for a given insect and the necessary lethal doses are generally well known to those skilled in the art and may be determined by trial and error, as exemplified by, for example, US Patents 3,699,111 and 3,745. 215.

 In a preferred embodiment of the device according to the invention, the coating 1 of insecticide is a composition which comprises an adhesive agent. This term "adhesive agent" herein refers to a conipose or composition that serves to bond the device to the leaves or foliage of plants or other plants such as trees. Adhesive agents are well known and are used in the prior art for bonding filaments to vegetation, (see Deterling article). As an adhesive agent constituting an ingredient of insecticidal coating 1, adhesive compositions containing polybutene resins or the like are preferred.

 The method of the invention is to disperse devices in an area or premises infested with selected insects that are attracted to pheromone 8 and killed or rendered unable to mate by contact with the insecticide product. Attracted by the pheromone 8 flavors that emerge from the device 20 frequently come into physical contact with this device.

This physical contact, particularly with the outer coating 1, exposes them to lethal or sublethal doses of the insecticide, which resulted in their death. If, for example, pheromone 8 is attractive to the male of the selected insect species, a certain proportion of the miles at the chosen location will be killed. The reproductive cycle of the insect species will be disturbed and the insect population removed.

 Fig. 7 is a view, on a large scale, of the device of FIG. I, glue on the leaf of a plant.

 The following examples describe the mode and the method of manufacture and use of the device according to the invention and are given to better understand the invention without being limiting.

EXAMPLE I
A number of polyester micro-tubes manufactured according to the method of US Pat. No. 4,017,030 and filled with a 1: 1 mixture of (Z, 2) -7,11- and (Z, E) 7 were taken, 11 - hexadecadian - 1 ol acetate, which is the pheromone of the pink cotton worm (Pectinophora gossypiella) that is attractive to the male of the species (Nominate, Controlled Release Division, Albany International, Albany, Ne York).

One part of each of the pheromone-filled tubes was coated with a mixture of 0.005 ml of a lethal insecticide for pink worm (Ambush, ICI Ltd., 0.001 g of active ingredient) in 5 g of an emulsion. polybutene (Biotac 3n, Chevron Inc.). Another portion of the filled tubes were covered with the polybutene emulsion alone, to serve as a control.

Cotton fields on a farm in the Lone Butte area, Arizona, were divided into a series of approximately 16 ha treatment areas and a number of them were randomized to be treated by application. coated micro-tubes. Six zones were treated with a dispersion of micro-tubes coated with the adhesive and insecticidal agent mixture (hereinafter referred to as the device according to the invention), and it was treated whether areas with a control dispersion (hereinafter referred to as prior device). Three adjacent zones, totaling 48 ha, have been left untreated, with the exception of conventional insecticide treatments, to allow comparison with the above types of treatment (control). Distribution of devices according to the invention and devices of the prior art was carried out in such a way that the treatments used 50 g of Nomate and 3.54 l of
Bio-tac per ha. In areas containing Ambush the amount used was 19.8 g / ha (or 4.98 g active agent per ha). A total of eight treatments were run over the entire cotton growing season, about two weeks apart.

 Five Delta-type pheromone traps were placed in each treatment area of 16 ha (a total of 30 for each type of treatment and a total of 15 for untreated areas) to control the flight of male insects. These traps were checked daily from June to October.

 Mating table tests were conducted twice a week from June to September inclusive. There were three tables in each zone. During the test periods, every second night all control points and half of the treatment points were used. Every night, nine virgin females raised in the laboratory were placed on the tables with a stapled wing on the table. The females were then collected before sunrise and dissected for spermatophore control.

 After the observation period, it was noted that there was a slight reduction in mating activity (as measured by the mating tables) and no significant difference in trap capture in the treatment areas. by the devices of the prior art, compared to the treatment areas by the devices according to the invention. There was also a very significant reduction in both mating and trapping by traps in treated areas compared to untreated areas (conventional practice). The average number of insects captured by the traps during the observation period in each of the fields is shown graphically in Figure 3. Figure 4 graphically represents the number of females stapled by a wing that were fertilized during the period. observation period in each of the experimental fields. This graph shows that the total insect density in the area during the observation period was relatively low. It can therefore be concluded, on examining Figs. 3 and 4, that for low population densities of insects there is no statistically significant difference between the treatments carried out with the devices of the prior art and those carried out with the device according to the invention.

EXAMPLE 2
In the Harquahala Valley region of Arizona USA randomly closed flower bud samples were collected from a 40 ha cotton field planted with Pima and Delta Pine varieties and found to be infested with butterflies. of cottonworm in a proportion of at least 30%. The field was roughly divided into three thirds and a Delta-type pheromone trap was placed in each zone to count the butterfly flights of the cottonworm, Maltese.

 Prior to treatment, rosettes (infested flowers) were counted by systematically taking samples in the field as follows: one-third in each zone, from the north and from the south, the sample collection rows being selected with the only following condition, that the North Row is a row of Delta Pine and the South Row a row of Pima. In each of the six rows (two per area) five sections of one hundred meters were staked and the rosettes and the total number of flowers were counted. It was thus possible to estimate the percentage of infested plants and the density of larvae per ha. The northern zone (or the upper third of the field) received no treatment. The central third of the field received an application of prior art devices, prepared as described above (calculated to obtain a 45 g application). nomata and 354 liters of Bi-tac per ha). The southern third of the field received, in addition to the same amount of nomate and bio-tac, 14.8 g / ha of ambush (or 0.45 g of active ingredient per ha) in the form of devices following the invention, prepared as described in Example 1, above.

 Insect number counts were performed three weeks and four weeks after treatment by systematically taking samples in the field as follows: in each of the staked areas used to perform pre-treatment rosette counts, counted the total number of capsules possible (10 to 20 days). Fifty capsules were then collected in these areas and their larval infestation examined.

It was thus possible to estimate the percentage of infestation and the density of larvae per hectare.

 Experiments were performed by replicating tables eight times after the treatment in the same manner as in Example 1, above. Each region was equipped with ten tables, each of which carried eight virgin females.

 The infestation counts made on the day of treatment showed that the area which had received the dispersion of devices according to the invention was twice as infested as the other zones. The infestation counts made on the first day are represented by the curves in Fig.5.

Post-treatment counts revealed a 54.7% reduction in infestation levels (larvae / acre) in the area treated with the following devices. The area treated by the prior art devices revealed a 9 X infestation fall compared to the control area, which showed an increase in infestation rate of 25.4 S. The counts after the treatment period are shown graphically. in Fig.6.

 The mating tables below show a clear difference between the three areas, expressed in number of females covered.

COMPARISON OF THE RESULTS OF ACCELERATION TABLES IN TREATED AREAS AND ZONES
NOT TREATED

<Tb>

Covered <SEP> no <SEP> covered <SEP> total <SEP>,% <SEP> females
<tb><SEP> ~~~~~~~~~~~~~~~ SEP> ~~~~~~~~~~~~~~~~~~ <SEP> covered <SEP>
<tb> Control <SEP> - <SEP><SEP> 198 <SEP> 335 <SEP> 533 <SEP> 37 <SEP>%
<tb> Device
<tb> of <SEP> art
<tb> previous <SEP> 82 <SEQ> 461 <SEQ> 543 <SEK> 15 <SEP>%
<tb> Device
<tb> next
<tb> the invention <SEP> 37 <SEP> 475 <SEP> 512 <SEP> 7 <SEP>% <SEP>
<tb> Total <SEP> 317 <SEP> 1271 <SEP> 1588
<Tb>
It can be deduced from this example that, in cases of high population densities, there is a significant difference between the areas treated according to the prior art, the areas treated by devices according to the invention and the untreated areas. This difference is noted both in the infestation values and in the results of the mating tables. The use of Ambush in the Bio-tac coating has apparently reduced the number of males that remained available to accidentally encounter females, which has increased the effectiveness of pheromone mating reduction with respect to mating. suppression of harmful populations.

Claims (4)

 1 - Device for attracting certain selected insects, at a predetermined site, comprising a body (2) made of synthetic polymeric resin, intended to contain a phe-romone (8) which constitutes an attractant for the male or female of the selected insects, a pheromone contained in the body, and means for controlled release of the pheromone, its container, in the form of steam at a rate appropriate to attract males or females of the species of insects considered; characterized in that it comprises: on at least a part of the outer surface of the body a coating (1), containing a quantity of insects cide effective for the suppression of insects.  2 - A method for attracting and killing selected insects in a predetermined location, characterized in that there is at least one device for attracting and killing insects comprising a body made of a synthetic polymer resin and intended to contain an attractive pheromone for males or females of the species of insects considered, a pheromone contained in the body, means for releasing the pheromone as a vapor from its container in a controlled manner, with a flow rate suitable for attracting males or females of the insect species considered and, on at least a portion of the external surface of the body, a coating containing an amount of insecticide effective for the control of insects, so that the attracted insect comes into contact with the device and receives a dose of the insecticide.  3 - Apparatus for attracting selected insects to a predetermined location, comprising a capillary tubular filament (2), a pheromone of the selected insect species, contained in the filament so that vapors of this pheromone emerge with a controlled flow, and an adhesive agent deposited on the outer surface of the filament, characterized in that it comprises an amount of insecticide corresponding to the insect species considered, deposited on the outer surface of the filament.  4 - Device according to claim 3, characterized in that the insecticide is mixed with the adhesive agent.