JP7352258B2 - Method for controlling whitefly pests, aphid pests, or stink bug pests using focused ultrasound - Google Patents

Description

Application of Article 30, Paragraph 2 of the Patent Act 1. Publication date: March 25, 2019 Abstracts of the 63rd Annual Meeting of the Japanese Society of Applied Zoology and Entomology, page 168 2. Publication date: November 20, 2019 Abstracts of the 6th Annual Research Presentation of the Bioacoustic Society, pp. 74-75

The present invention provides a method for repelling whitefly pests such as the tobacco whitefly and Japanese whitefly, aphid pests such as the cotton aphid and peach aphid, and/or stink bug pests such as the German green stink bug from crops, using focused ultrasound, and a method for repelling the pests from crops. Regarding pest control methods.

Methods for controlling pests include chemical control, physical control, and cultivation control, and chemical control using insecticides is the mainstream.

For example, pest control methods that utilize behavior control have the advantage of not having the problem of drug resistance, which is a common problem with chemically synthesized insecticides, or the problem of adverse effects on the human body, the environment, and non-target organisms. Therefore, this method is an environmentally friendly pest control alternative to chemicals that has been in demand in society for many years due to the emergence of pests that are resistant to chemicals and the growing awareness of environmental and food safety and security. It contributes to the development of technology.

There is also considerable economic loss due to pests that damage agricultural and horticultural crops. These pests include whiteflies such as the tobacco whitefly and the whitefly, and the adults and larvae of these pest species injure the leaves of various agricultural and horticultural crops, inhibiting crop growth and significantly reducing commercial value. let Therefore, such pests are targeted for control in agricultural and horticultural crop cultivation, but from the viewpoint of maintaining biodiversity and food safety, there is also a need to develop environmentally friendly pest control techniques.
Aphid pests such as the cotton aphid and peach aphid, and stink bug pests such as the German green stink bug are also targets of control in agricultural and horticultural crop cultivation, similar to whitefly pests.

In greenhouse horticulture, there are problems with small pests that are difficult to control, such as whiteflies, spider mites, thrips, aphids, and stink bugs that have developed resistance to insecticides, so it is necessary to establish control methods that are less likely to develop resistance to insecticides. is also in demand.
Patent Document 1 reports a technique for controlling pests by applying force such as "vibration" to pests through "transmitters" such as plants and the ground.
Patent Document 2 reports a technique for using ultrasonic waves in a specific wavelength range to repel the Noshima grasshopper moth, which is a pest to be controlled. On the other hand, the small ultrasonic focusing device developed by Hoshi (2013) has the feature of being able to apply force to an object without contact, so it could be used for artificial pollination of strawberries. It is expected (Patent Document 3, Non-Patent Documents 1 and 2).

Patent No. 5867813 Patent No. 5904473 Japanese Patent Application Publication No. 2015-43741

Takayuki Hoshi. “Theory and implementation of small ultrasonic focusing device.” [C] Electronics, Information and Systems Division Perceptual Information Study Group (2013). Shimizu, H., Hoshi, T., Nakamura, K. and Park, J.K. (2015) Development of a Non-contact Ultrasonic Pollination Device. Environmental Control in Biology, 53-2, 85-88. Takanashi, T., Uechi, N. and Tatsuta, H. (2019) Vibrations in hemipteran and coleopteran insects: behaviors and application in pest management. Applied Entomology and Zoology, 1-9.

As mentioned above, attempts have been made to control pests such as Lepidoptera using ultrasound, but the practicality of these existing technologies for controlling whiteflies, aphids, or stink bugs has not been proven. . For example, in the invention disclosed in Patent Document 1, an attempt is made to remove whiteflies, which are microscopic pests of tomatoes grown in facilities, by vibrating the tomato plants. However, this document does not specifically show the effectiveness of this method in controlling whiteflies. In addition, in this method, since the entire above-ground part of the tomato is shaken, it is expected that the fruit set of the tomato will be affected, resulting in a decrease in the marketable fruit rate.
Patent Document 2 does not disclose the applicability of the invention described in the document to whiteflies, aphids, or stink bugs.
Therefore, there is a strong need for new techniques that can be used regardless of region and are effective in controlling whiteflies, aphids, and stink bugs that damage agricultural and horticultural crops.

As a result of extensive research to solve the above problems, the present inventors have discovered that they can control the behavior of whiteflies, aphids, and stink bugs by using a medium that has never been tried before. However, it was discovered that there is a possibility of controlling whiteflies, aphids, and stink bugs, and as a result of further research, the present invention was completed.

That is, the present invention relates to at least the following inventions:
[1]
A method of repelling whitefly pests or aphid pests from crops using ultrasonic waves, which uses ultrasonic waves that promote the flight or escape of whitefly pests or aphid pests to prevent adult whitefly pests or aphid pests from inhabiting crops. The method includes applying the method in a focused manner near the habitat on the crop where the whitefly pest or aphid pest is present, and causing the adult whitefly pest or aphid pest to fly or escape and leave the crop, thereby repelling the adult insect from the crop. Method.
[2]
The method according to [1], wherein the whitefly pests are one or two species from the tobacco whitefly and the Japanese whitefly, and the aphid pests are one or two species from the cotton aphid and green peach aphid.
[3]
The method of [1] or [2], wherein the ultrasound is a modulated ultrasound with a modulation frequency of 1 Hz to 1000 Hz, or an unmodulated ultrasound.
[4]
The method according to any one of [1] to [3], wherein the ultrasonic waves are applied for a continuous period of 10 seconds to 90 seconds.
[5]
The method according to any one of [1] to [4], wherein the crop is a tomato, strawberry, green bean, melon, cucumber, eggplant, green pepper, cabbage, or chrysanthemum.
[6]
A method of controlling whitefly pests or aphid pests using ultrasonic waves, which uses ultrasonic waves that promote flight or escape of whitefly pests or aphid pests in areas where adult whitefly pests or aphid pests live. A method of reducing the population density of whitefly pests or aphid pests or of aphid pests or the crop by applying the insects concentratedly near the habitat on the crop, and causing the adults to fly or escape and leave the crop.
[7]
A method of controlling stink bug pests using ultrasonic waves, which focuses ultrasonic waves that inhibit the feeding of stink bug pests near the habitat on crops or fruit trees where adult stink bug pests live. 1. A method comprising: applying a stink bug to the crops or fruit trees to reduce the population density of stink bugs in the crop or fruit tree by inhibiting feeding of the stink bugs.
[8]
Any method from [1] to [7] in which the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
These are modulated ultrasound waves with a modulation frequency of 1 Hz to 1000 Hz, or non-modulated ultrasound waves.
[9]
Any method from [1] to [7] in which the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The duty ratio of ultrasound is 40% to 60%.
[10]
Any method from [1] to [7] in which the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The strength of the ultrasound pulse is 10 mN to 30 mN.
[11]
Any method from [1] to [7] in which the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The duty ratio of the ultrasound is 40% to 60%,
Ultrasonic waves are continuously generated, and the continuous generation time is 10 seconds to 90 seconds.

According to the method of the present invention, repelling whiteflies or aphids that damage agricultural and horticultural crops from agricultural and horticultural crops, or inhibiting the feeding of stink bugs that damage agricultural and horticultural crops or fruit trees, The growth density of crops or fruit trees can be reduced by a method different from conventional methods, and these pests can be controlled.
According to the method of the present invention, by applying a non-contact force (modulation frequency is, for example, 1 Hz to 1000 Hz) by focused ultrasound to a male or female adult of a whitefly pest, the male or female adult By promoting the flight of these pests from their habitats on crops, and thereby causing the adult insects to fly and leave the crops, the population density on the crops can be reduced.
Whiteflies such as the whitefly and the whitefly are small, sap-sucking pests, and their larvae and adults parasitize and damage many vegetable crops and flowers, including tomatoes, strawberries, eggplants, and cucumbers. Since whitefly pests live on the underside of leaves, they are difficult to find if the density is low, and it is also difficult to control them because chemicals often do not reach the areas where they live.
Aphid pests such as the cotton aphid and peach aphid, and stink bug pests such as the German green stink bug are also pests that are difficult to control, similar to whitefly pests. The method of the present invention, which enables the control of difficult-to-control pests such as whiteflies, aphids, and stink bugs without using synthetic insecticides, has exceptional effects that were not possible with conventional techniques. be.

1 is a schematic diagram of an ultrasonic focusing device for pest control that can be used in the method of the present invention. FIG. 3 is a diagram showing the relationship between the distance from the transducer array and the ultrasonic focusing point in the ultrasonic focusing device for pest control that can be used in the method of the present invention. 1 is a diagram schematically showing the test system shown in Example 1. FIG. 1 is a diagram showing the effect of the method of the present invention on tobacco whitefly in Example 1. FIG. FIG. 2 is a diagram schematically showing the test system shown in Example 2. FIG. 2 is a diagram showing the effect of the method of the present invention on tobacco whitefly in Example 2. FIG. 3 is a diagram schematically showing the test system shown in Example 3. FIG. 3 is a diagram showing the effect of the method of the present invention on cotton aphids in Example 3. FIG. 3 is a diagram schematically showing the test system shown in Example 4. FIG. 4 is a diagram showing the effect of the method of the present invention on German red stinkbug in Example 4.

The present invention relates to the method as described above and reproduced below:
A method of repelling whitefly pests or aphid pests from crops using ultrasonic waves, which uses ultrasonic waves that promote the flight or escape of whitefly pests or aphid pests to prevent adult whitefly pests or aphid pests from inhabiting crops. The method includes applying the method in a focused manner near the habitat on the crop where the whitefly pest or aphid pest is present, and causing the adult whitefly pest or aphid pest to fly or escape and leave the crop, thereby repelling the adult insect from the crop. The method is.
The present invention also provides a method for controlling whitefly pests or aphid pests using ultrasound as described above, in which ultrasonic waves that promote flight or escape of whitefly pests or aphid pests are used to control whitefly pests or aphid pests. By concentrating the application near the habitat on the crop where adult insects of the similar pest live, and causing the adult insects to fly or escape and leave the crop, the population density of whitefly pests or aphid pests on the crop is reduced. It also relates to a method of controlling whitefly or aphid pests, including reducing the number of whiteflies or aphids.
Furthermore, the present invention provides a method for controlling stink bug pests using ultrasound, in which ultrasonic waves that inhibit the feeding of stink bug pests are transmitted onto crops or fruit trees where adult stink bug pests live. It also relates to a method comprising reducing the population density of stink bugs in the crop or fruit tree by concentrated application near the habitat and inhibiting feeding of the stink bugs.
The above-mentioned method of repelling whiteflies or aphids from crops using ultrasonic waves of the present invention may be referred to as the "repelling method of the present invention" hereinafter. Further, the method of controlling whiteflies, aphids, or stink bugs using the ultrasonic waves of the present invention may hereinafter be referred to as the "control method of the present invention." These repellent methods, feeding inhibiting methods, and pest control methods of the present invention may be collectively referred to as "methods of the present invention" in this specification.
The following explanation applies in common to the repellent method of the present invention and the pest control method of the present invention, unless otherwise stated.

As used herein, "ultrasound" refers to sound waves having a specific frequency in the range of 20 kHz to 50 kHz. Regarding periodicity in ultrasound, there may be a periodicity in which ultrasound waves of a certain duration are repeated, or there may be no periodicity. Note that the ultrasonic waves may have slight periodicity corresponding to the band.
In this specification, "focusing" of ultrasound waves or "focusing" ultrasound waves refers to concentrating the peaks of ultrasound waves generated by a piezoelectric vibrator etc. in almost one place by controlling a transducer array, etc. means.
As used herein, "focused ultrasound" means ultrasound focused as described above.

<Method for repelling or inhibiting feeding of the present invention>
The ultrasonic waves used in the method of the present invention are focused ultrasound waves that promote flight or escape of whitefly pests or aphid pests, and the ultrasonic waves are focused to promote flight or escape of whitefly pests or aphid pests. Flight or escape behavior is promoted. Further, the ultrasonic waves used in the method of the present invention are focused ultrasound waves that inhibit feeding of stink bug pests, and the feeding behavior of stink bug pests is inhibited by the ultrasonic waves.
Without being bound by theory, the method of the present invention has the effect of promoting flight or escape behavior exerted by the non-contact force applied directly to whitefly pests or aphid pests, or stink bug pests. This is thought to be based on the effect of inhibiting feeding exerted by the non-contact force applied directly to the food.
It is known that male and female adult tobacco whiteflies use vibration as a mating signal (Non-patent Document 3). However, the effect of promoting flight behavior or escape behavior exerted by a non-contact force on whitefly pests, including the tabaci whitefly, has not been known so far, and the effect of promoting flight or escape behavior exerted by a non-contact force against aphid pests. The effect of promoting behavior and the effect of inhibiting feeding exerted by non-contact action on stink bug pests have not been known so far. The effect of promoting flight behavior or escape behavior and the effect of inhibiting feeding, on which the present invention is based, are inconceivable from conventional techniques.
The whitefly pests to which the method of the present invention is applied are not particularly limited, and examples thereof include the tobacco whitefly and the Japanese whitefly.
The aphid pest to which the method of the present invention is applied is not limited, and examples of the aphid pest include cotton aphid and peach aphid.
The stink bug pests to which the method of the present invention is applied are not limited, and examples of the stink bug pests include the German stink bug and the Japanese stink bug.

The frequency of the ultrasound in the method of the present invention is not particularly limited, but is preferably 20 kHz to 50 kHz, more preferably 30 kHz to 50 kHz, and even more preferably 30 kHz to 45 kHz.
The modulation frequency of the ultrasound in the method of the present invention is not particularly limited, but no modulation or 1 Hz to 1000 Hz is preferred, no modulation or 1 Hz to 500 Hz is more preferred, and no modulation or 1 Hz to 60 Hz is even more preferred. More preferred.
The duty ratio of ultrasound (ratio of ON time of ultrasound) in the method of the present invention is not particularly limited, but is preferably 40% to 60%, more preferably about 50%.
The non-contact force exerted by the focused ultrasound in the method of the present invention is not particularly limited, but is preferably 10 mN to 30 mN, preferably 10 mN to 20 mN, and more preferably 12 mN to 20 mN.
The intensity of the pulse in the method of the present invention is not limited, but is preferably 120 to 170 dB, more preferably 140 to 170 dB, and even more preferably 160 to 170 dB. The intensity of the ultrasonic pulse is determined by the amplitude of the ultrasonic wave, and can be determined by the drive voltage of the device, PWM, the number of transducers, and the focal length of the ultrasonic wave.
The distance between the crop and the ultrasonic focusing device in the method of the present invention is not particularly limited, but is preferably 10 cm to 40 cm, and even more preferably 10 cm to 30 cm. In the method of the present invention, the site on the crop that is focused and irradiated with ultrasonic waves is not particularly limited, but is preferably a flat surface such as the leaf surface of the crop, more preferably near the habitat of the adult insect on the leaf surface. It is even more preferable that the focused ultrasound waves directly touch.
In the method of the present invention, the focal position for irradiating focused ultrasound is not particularly limited, but it is preferable to move the focal position within a range of 50 cm x 50 cm by controlling a transducer array, and within a range of 20 cm x 20 cm. It is more preferable to move it, and it is even more preferable to move it within a range of 5 cm x 5 cm.

In the method of the present invention, the above parameters may be changed at any timing during the application period.
In the method of the present invention, the duration of the ultrasonic waves (ultrasonic burst waves) that are continuously generated with a specific pulse length and inter-pulse interval is not limited, and may be, for example, about 1 second to about 90 seconds. In the method of the invention, such duration is preferably from about 10 seconds to about 60 seconds, more preferably from about 30 seconds to about 60 seconds.

In the methods of the invention, the total time that focused ultrasound is applied is not limited, and examples include from about 1 hour to about 5 hours, preferably from about 2 hours to about 5 hours, and from about 3 hours to about 4 hours per day. Time is more preferred.

The device used to generate focused ultrasonic waves in the method of the present invention is placed in a position that does not come into contact with the crop, and generates focused ultrasonic waves that promote the flight or escape of adult whitefly pests or aphid pests. There are no limitations as long as the device is capable of generating focused ultrasonic waves that inhibit the feeding of stink bug pests. As such a device, a device using a transducer array is preferable.

The following characteristics are known for ultrasound focusing or focused ultrasound by a device using a transducer array (Non-Patent Document 2):
- By using several hundred ultrasonic transducers, it is possible to generate a force of approximately several tens of mN.
- The position of the focal point can be changed to any position in three-dimensional space by phase control.
- When a square transducer array as depicted in FIG. 1 is used, the sound pressure distribution of the ultrasonic waves generated at the focal plane approximately follows a sinc function. This is a result obtained analytically when it is assumed that spherical waves with phase differences are radiated from each ultrasonic transducer.
- When the length of one side of the square transducer array is D, the wavelength of the ultrasound is λ, and the focal length is R, the diameter w of the focal point is equal to 2λR/D (see Figure 2).
- The intensity of the non-contact force at the focal point can be controlled by pulse width control (PWM) of the rectangular wave supplied to the ultrasonic transducer.

As the device used for generating focused ultrasound in the method of the present invention, a device corresponding to the device disclosed in Patent Document 3 is more preferable. Such a device includes a transducer array in which a plurality of ultrasonic transducers are arranged, which is arranged at a distance from a plant, and ultrasonic waves whose phases differ from each other by an amount determined by the positional relationship between the plurality of ultrasonic transducers. By generating ultrasonic waves generated by the plurality of ultrasonic transducers, the ultrasonic waves generated by the plurality of ultrasonic transducers are focused on the position of the target site of the plant (the leaf where the whiteflies inhabit), and the non-contact at the position of the leaf is focused. and control means for controlling the transducer array so that the magnitude of the acting force is periodically switched at a modulation frequency smaller than the ultrasonic band.
Such a device is preferable because it can also promote pollination when crops are in the pollination period.

When using the above preferred device, the method of the present invention is a method using a transducer array in which a plurality of ultrasonic transducers are arranged and a control means for controlling the transducer array, the transducer array being separated from the plant body. a first step of arranging the ultrasonic transducers, and causing the plurality of ultrasonic transducers to generate ultrasonic waves whose phases differ from each other by an amount determined by their positional relationship, so that the ultrasonic waves generated by the plurality of ultrasonic transducers are The non-contact force is focused on the target site of the plant (a leaf inhabited by whiteflies), and the magnitude of the non-contact force at the leaf location is periodically switched at a modulation frequency smaller than that of the ultrasonic band. A second step of controlling the transducer array using the control means is preferable.

<Pest control method of the present invention>
The method for controlling whitefly pests, aphids pests, or stink bug pests of the present invention includes the method of repelling whitefly pests or aphids pests from crops using focused ultrasound waves, or the method of repelling whitefly pests or aphids pests of the present invention, or This method uses a method that inhibits feeding.
According to the control method of the present invention, it is possible to control whiteflies on adult seedlings of facility-grown crops such as tomatoes, strawberries, green beans, melons, cucumbers, eggplants, green peppers, cabbage, and chrysanthemums.
Furthermore, according to the control method of the present invention, it is possible to control aphids on adult seedlings and young seedlings of greenhouse-grown crops such as tomatoes, strawberries, green beans, melons, cucumbers, eggplants, green peppers, and chrysanthemums.
Furthermore, according to the pest control method of the present invention, it is possible to control stink bugs on fruit trees such as plums, peaches, plums, pears, persimmons, and citrus trees.
Furthermore, according to the control method of the present invention, whitefly pests, aphids pests, or stink bug pests attached to the seedlings of the above-mentioned crops are removed from the seedlings, thereby eliminating whitefly pests in the main field at the time of planting these seedlings. It is also possible to control the introduction of aphids or stink bugs to prevent the occurrence of whiteflies, aphids, or stink bugs in the field.

The type of ultrasonic generator installed in the pest control method of the present invention is not particularly limited as long as it can generate a predetermined ultrasonic wave. Further, the number of ultrasonic generators to be installed may be determined as appropriate depending on the size of the field or facility. Alternatively, the ultrasonic generator may be fixed to a transport device that can move objects along horizontally laid rails, and then moved within the facility.
The crops to which whiteflies are controlled by the control method of the present invention are not limited, and any crop that is infested with whiteflies may be used. Examples of such crops include tomatoes, strawberries, green beans, melons, cucumbers, eggplants, green peppers, cabbages, and chrysanthemums.
Furthermore, the crops to which aphid pests are controlled by the control method of the present invention are not limited, and any crop infested with aphid pests may be used. Examples of such crops include tomatoes, strawberries, green beans, melons, cucumbers, eggplants, green peppers, and chrysanthemums.
Furthermore, the crops and fruit trees on which stink bug pests can be controlled by the pest control method of the present invention are not limited, and any crop or fruit tree infested with stink bug pests may be used. Examples of such crops/fruit trees include plums, peaches, plums, pears, persimmons, and citrus.

The wavelength of the ultrasound in the method of the present invention is not particularly limited, but is preferably 20 kHz to 50 kHz, more preferably 30 kHz to 50 kHz, and even more preferably 30 kHz to 45 kHz.
The modulation frequency of the ultrasound in the method of the present invention is not particularly limited, but no modulation or 1 Hz to 1000 Hz is preferred, no modulation or 1 Hz to 500 Hz is more preferred, and no modulation or 1 Hz to 60 Hz is even more preferred. More preferred.
Further, the duty ratio of the ultrasonic waves in the method of the present invention is not particularly limited, but is preferably 40% to 60%, more preferably about 50%. The non-contact force exerted by the focused ultrasound in the method of the present invention is not particularly limited, but is preferably 10 mN to 30 mN, preferably 10 mN to 20 mN, and more preferably 12 mN to 20 mN.
The intensity of the pulse in the method of the present invention is not limited, but is preferably 120 to 170 dB, more preferably 140 to 170 dB, and even more preferably 160 to 170 dB.
The intensity of the ultrasonic pulse is determined by the amplitude of the ultrasonic wave, and can be determined by the drive voltage of the device, PWM, the number of transducers, and the focal length of the ultrasonic wave.

The distance between the crop and the ultrasonic focusing device in the method of the present invention is not particularly limited, but is preferably 10 cm to 40 cm, and even more preferably 10 cm to 30 cm.
In the method of the present invention, the site on the crop or fruit tree to which the ultrasonic waves are focused and irradiated is not particularly limited, but a flat surface such as the leaf surface of the crop is preferable, and a portion near the habitat of the adult insect on the leaf surface is more preferable. It is even more preferable that the focused ultrasound waves directly contact the adult insect.
In the method of the present invention, the focal position for irradiating focused ultrasound is not particularly limited, but it is preferable to move the focal position within a range of 50 cm x 50 cm by controlling a transducer array, and within a range of 20 cm x 20 cm. It is preferable to move it, and it is even more preferable to move it within a range of 5 cm x 5 cm.
The above explanation regarding the repelling method of the present invention also applies to the pest control method of the present invention.

Further, the repelling method of the present invention and the control method of the present invention according to (a) to (d), in which the applied ultrasound further satisfies the following, are more effective against whiteflies, aphids, or stink bugs. Preferable because it allows reliable performance:
●(a)
The frequency of the ultrasonic wave is 20kHz to 50kHz,
These are modulated ultrasound waves with a modulation frequency of 1 Hz to 1000 Hz, or non-modulated ultrasound waves.
●(b)
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The duty ratio of ultrasound is 40% to 60%.
●(c)
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The strength of the ultrasound pulse is 10 mN to 30 mN.
●(d)
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The duty ratio of the ultrasound is 40% to 60%,
Ultrasonic waves are continuously generated, and the continuous generation time is 10 seconds to 90 seconds.

The invention will be explained in more detail by the following examples. These examples are not intended to limit the invention in any way.
(Example 1) Effect on tobacco whitefly (Test (1))
Test insect: tobacco whitefly (biotype Q)
Test plant: Green bean (variety: long quail bean) Green bean seedlings were grown for one week in a thermostatic chamber set at 24.5℃ (humidity 50% ± 10%), and male or female adults of tabaci whiteflies were released, and a few hours later Leaves with 20 or more adult beetles 60 were removed, and kidney bean leaves 70 were fixed to the inner wall of the acrylic cage 50. The transducer array 30 of the ultrasonic focusing device 1 for pest control was installed at a position 20 cm away from the leaves inside the acrylic cage 50. The ultrasonic focusing device 1 for pest control is an ultrasonic phased array equipped with 285 ultrasonic transducers and whose phase can be individually controlled. Details of the ultrasonic focusing device 1 for pest control are disclosed in Patent Document 3. A drive signal that repeats +12V and -12V at a frequency of 40kHz was modulated at 1Hz, 10Hz, 30Hz, 60Hz, 120Hz, 240Hz, 480Hz, or 1000Hz. The input device 15 was set to move the focal position within a range of 20 cm x 20 cm, and the focal position was set at a depth of 20 cm so that the focused ultrasonic waves touched the bodies of all adult tobacco whiteflies on the leaf. The processing time was set to 10 or 60 seconds (Figure 3-1). The number of insects remaining on the leaves was investigated before and after treatment. The temperature in the laboratory was set at 24.0°C using an air conditioner.
The duty ratio of the applied ultrasound was 50%, and the intensity of the ultrasound pulse was 16 mN.
As a result, flight was promoted by applying non-contact force (modulation frequency: 1 to 1000 Hz) to adult male or female whiteflies using the device (Figure 3-2).

(Example 2) Effect on tobacco whitefly (Test (2))
Test insect: tobacco whitefly (biotype Q)
Test plant: Green beans (variety: long quail beans)
Using the method used in Example 2, the effect of the method of the present invention on tobacco whitefly was investigated. For each 80 green bean seedlings grown for one week in a thermostatic chamber set at 24.5°C (humidity 50% ± 10%), 10 male and female pairs of 60 adult tobacco whiteflies were released, and each was placed in a closed acrylic cage 50. . The acrylic cage 50 used had a 0.5 mm mesh only on the bottom surface. After several hours in the ultrasonic vibration area, the transducer array 30 of the ultrasonic focusing device 1 for pest control, which is the same as the ultrasonic focusing device for pest control used in Example 1, was installed vertically upward under the acrylic cage 50. , a drive signal that repeats +12V and -12V at a frequency of 40kHz was modulated to 30Hz. The input device 15 is set to move the focal point within a range of 20 cm x 20 cm so that the focused ultrasonic waves touch the bodies of all adult tobacco whiteflies on the leaves of the green bean seedlings 80. The focal position was fixed to match the distance to the surface (15 cm to 24 cm), and the processing time was set to 4 hours (11:30 to 15:30) (Figure 4-1). The number of viable adults and eggs remaining on the leaf surface after treatment was investigated. The temperature in the laboratory was set at 24.0°C using an air conditioner.
The duty ratio of the applied ultrasound was 50%, and the intensity of the ultrasound pulse was 16 mN.
When non-contact force is applied using the above method to B. tabacum whiteflies (male or female adults) on kidney bean seedlings for a long period of time (modulation frequency 30 Hz, 4 hours/day), the B. tabacum whiteflies survive after 2 days. The adult rate and number of eggs laid were suppressed (Figure 4-2).

(Example 3) Effect on cotton aphids (Test (3))
Test insect: Cotton aphid Test plant: Eggplant (variety: Senryo)
Winged or wingless adults of the cotton aphid 61 were released into eggplant seedlings that had been grown for about a month in a glass greenhouse (temperature and humidity were controlled and heated to 15°C or higher in winter), and a few hours later, the adult aphids appeared. Leaves with 20 or more of them were excised and fixed to the inner wall of the acrylic cage 50 as eggplant leaves 71.
The transducer array 30 of the ultrasonic focusing device 1 for pest control was installed at a position 20 cm away from the leaves inside the acrylic cage 50. A drive signal that repeats +12V and -12V at a frequency of 40kHz was modulated at 1Hz, 10Hz, 30Hz, 60Hz, 120Hz, 240Hz, or 1000Hz.
Processing is performed by moving the focal point within a range of 20 cm x 20 cm vertically and horizontally using the input device 15, and fixing the focal position at a depth of 20 cm so that the focused ultrasonic waves touch the bodies of all adult cotton aphids on the leaf. The time was set to 60 seconds (Figure 5-1).
The number of insects remaining on the leaves was investigated before and after treatment. The temperature in the laboratory was set at 24.0°C using an air conditioner.
The duty ratio of the applied ultrasound was 50%, and the intensity of the ultrasound pulse was 16 mN.
As a result, by applying a non-contact force (modulated frequency: 1 to 240 Hz for winged and 30 Hz for wingless) to winged and wingless adults of cotton aphids using the device, withdrawal was promoted. (Figure 5-2).

(Example 4) Effect on German green stink bug (Test (4))
Test Insect: German Green Stink Bug Test Food: Soybean, Peanut, Water 10 adult German Green Stink Bugs (5 females, 5 males) 86 were fasted from 1 day before the start of the test and given only water, and the upper surface of them was gorseed only. It was placed in an expanded irradiation area case 81 together with water 84, and the transducer array 30 of the ultrasonic focusing device 1 for pest control was installed 20 cm above the case as shown in FIG. 6-1. A case 82 for non-irradiation area was set up next to the partition 85, and adult German green stink bugs (5 females, 5 males) 86 and water 84 were similarly placed there, and Gose was spread only on the top surface.
During the two-day test, for a total of 10 hours during the day, the focal position was fixed so that the focused ultrasonic waves touched only the bait 83 inside the case 81 for the irradiation area, and a drive signal was applied that repeated +12V and -12V at a frequency of 40kHz. , applied without modulation.
The duty ratio of the applied ultrasound was 50%, and the intensity of the ultrasound pulse was 16 mN. Each of the baits 83 was placed in the case 81 for the irradiation area or the case 82 for the non-irradiation area only for a total of 10 hours during which the irradiation treatment was performed.
After 2 days, we measured the weight of 10 adult German green stink bugs in each area, and found that the total weight of adult German green stink bugs increased in the non-irradiated area with focused ultrasound, but the total weight of adult German green stink bugs increased in the irradiated area. decreased, indicating that by applying a non-contact force to the food location using the device of the present invention, the effect of inhibiting the feeding of the German green stink bug can be achieved (Figure 6-2) .

According to the present invention, it is possible to control whiteflies, which are insect pests of the order Storitomidae that injure agricultural and horticultural crops, particularly the tobacco whitefly and the Japanese whitefly, with higher efficiency than conventional methods. Therefore, the present invention greatly contributes to the development of the pest control industry, agriculture, horticulture, crop cultivation, and related industries.

1 Ultrasonic focusing device for pest control 10 Personal computer (PC)
20 Drive board 30 Transducer array 11 CPU
12 ROM
13 RAM
14 HDD
15 Input device 21 USB interface 22 FPGA
23 Driver IC
31 Piezoelectric vibrator 41 USB cable 42 Pin connector 50 Acrylic cage 60 Adult tobacco whitefly 61 Winged or wingless adult cotton aphid 70 Green bean leaves 71 Eggplant leaves 80 Green bean seedlings 81 Case for irradiation area 82 Case for non-irradiation area 83 Bait 84 Water 85 Freshly poured 86 German green stink bug adult

Claims (10)

A method of repelling whitefly pests or aphid pests from crops using ultrasonic waves, the ultrasonic waves promoting flight or escape of whitefly pests or aphid pests; The array controls the ultrasonic waves, which are focused almost in one place and have a pulse strength of 10 mN to 30 mN, on the leaves of crops where adult whiteflies or aphid pests live. Applying the focused ultrasound near the habitat by moving the focused ultrasound irradiation position in a range of 5 cm x 5 cm to 50 cm x 50 cm so as to directly touch the adults of the whitefly pest or aphid pest,
A method comprising repelling the adults of the whiteflies or aphids from the crop by causing the adults of the whiteflies or aphids to fly or escape from the crop after being directly exposed to the ultrasonic waves . 2. The method according to claim 1, wherein the whitefly pests are one or two species from the tobacco whitefly and the Japanese whitefly, and the aphid pests are one or two species from the cotton aphid and green peach aphid. The method according to claim 1 or 2, wherein the ultrasound is modulated ultrasound with a modulation frequency of 1 Hz to 1000 Hz, or unmodulated ultrasound. 4. A method according to any one of claims 1 to 3, wherein the ultrasound waves are generated continuously and the duration of the continuous generation is from 1 second to about 90 seconds. 5. The method according to claim 1, wherein the crop is a tomato, strawberry, green bean, melon, cucumber, eggplant, green pepper, cabbage, or chrysanthemum. A method for controlling whitefly pests and aphid pests using ultrasonic waves, the ultrasonic waves promoting the flight or escape of whitefly pests or aphid pests. The ultrasonic waves, which are controlled and focused in almost one place and have a pulse strength of 10 mN to 30 mN, are used to target areas on crop leaves where adult whiteflies and aphid pests live. Applying the focused ultrasonic wave by moving the focal position of irradiating the focused ultrasound in the range of 5 cm x 5 cm to 50 cm x 50 cm so as to directly touch the adult of the whitefly pest or aphid pest in the vicinity,
A method comprising reducing the population density of whitefly pests or aphid pests in the crop by causing the adult insects directly touched by the ultrasound to fly or escape from the crop. This is a method of controlling stink bug pests using ultrasonic waves, in which the apex of the ultrasonic wave, which inhibits the feeding of stink bug pests, is concentrated in almost one place by controlling a transducer array. Focused ultrasonic waves with a pulse strength of 10 mN to 30 mN are applied to the vicinity of the habitat on crops or fruit trees where adult insects of the stink bugs live, and the stink bugs are trying to feed on the stink bugs. The method is applied so that the adult insects are in direct contact with the ultrasonic waves , thereby inhibiting the feeding of the stink bug pests that have been directly exposed to the applied ultrasonic waves, thereby reducing the population density of the stink bug pests in the crops or fruit trees. A method, including prompting. The method according to any one of claims 1 to 7, wherein the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
These are modulated ultrasound waves with a modulation frequency of 1 Hz to 1000 Hz, or non-modulated ultrasound waves. The method according to any one of claims 1 to 7, wherein the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The duty ratio of ultrasound is 40% to 60%. The method according to any one of claims 1 to 7, wherein the ultrasound satisfies the following:
The frequency of the ultrasonic wave is 20kHz to 50kHz,
Modulated ultrasound whose modulation frequency is 1 Hz to 1000 Hz, or unmodulated ultrasound,
The duty ratio of the ultrasound is 40% to 60%,
Ultrasonic waves are generated continuously, and the continuous generation time is 10 seconds to 90 seconds.