KR101850843B1 - Attraction wavelength against Spodoptera exigua using high power light-emitting diode - Google Patents

Abstract

The present invention is based on observing the attracting effect of light beetle moths using light, especially LEDs of various wavelengths, for environmentally friendly control of beetles, Lt; / RTI > Specifically, the device disclosed in the 'Apparatus and Method for Identifying the Characteristics of Insects' presented in Korean Patent Application No. 10-2010-0090818 (2010.09.16) was used; (470 ± 10 nm, 1 W), green (520 ± 5 nm, 1 W), red (625 ± 10 nm, 1 W), yellow (590 ± 5 nm, 1W) LED; Respectively. As a result of comparing the incidence rates between the fluorescent light, which is the light source used in the conventional attracting and collecting apparatus, and the LED having the specific wavelength range, the possibility of white, , We could confirm the high induction activity at the wavelength of green and blue. Also, the efficiency of all LEDs was higher than that of fluorescent lamps.

Description

The LED wavelength that attracts the parasitic nematodes {Attachment wavelength against Spodoptera exigua using high power light-emitting diode}

The present invention relates to the search for the attracting wavelength of the parasitic moth, which will be used to develop an attracting / capturing device using light in the future by observing a benign dioptric response according to light irradiation, Furthermore, it is possible to observe the behavioral responses of the parasitic moths according to short wavelengths or complex wavelengths using a light source having a specific wavelength range, such as LEDs, Based on the results, we will provide the basic data on the behavior of the moths.

Recently, consumption of fruit and vegetables has been steadily increasing as the dietary pattern changes from seasonal consumption to consumption-oriented consumption along with improvement of national income. As a result, the influence of the environment on the environment is relatively less and the area of the facility-dominated area where the fruits and vegetables can be shipped all over the year is greatly increased, thereby causing various problems.

The main problem of the above-mentioned facility land cultivation is damage to crops caused by insect pests. The reason for this is that pests are generated throughout the year due to the specificity of the plantation plant, and the occurrence period is very frequent, It adds to the economic burden.

Among the pests in the world, widely distributed pests are wide-ranging pests that cause severe damage to 40, 200 kinds of crops such as vegetables, flowers, and fruit trees. Especially, It is a year that causes serious economic damage.

Many farmers use chemical control methods using pesticides as a method to solve them. However, they are classified as pest control pest which is difficult to control by chemical control method since pesticide resistance is very advanced after the 3rd instar .

In addition, frequent use of pesticides has a direct or indirect effect on growth such as behavior of natural enemies, feeding and spawning, growth, reproductive life and longevity. Therefore, the natural deterrence ability of natural enemies is remarkably deteriorated, Fruits and vegetables that use pesticides are inevitably devalued in price compared to environmentally friendly fruits and vegetables.

In addition to BT ( Bacillus thuringiensis ), which is well known for microbial pesticides, biological methods using natural enemies as well as heat, sound, color or light Wavelength) are being studied.

However, BT, a microbial pesticide, has a problem of resistance against parasitoids. In the case of biological methods using natural enemies, the effect is not constant and it is not a concept of eradication, so its effectiveness is questioned.

In the problem of the above-mentioned control method, among the relatively free physical control methods, the environment-friendly pest control method using light (wavelength) emits a wavelength of a region in which the pest can be recognized, thereby attracting, collecting or avoiding the pest according to the preference of each pest Is a technology to control pests environmentally friendly.

The three-wavelength lamp, which is commonly used in the environmentally-friendly pest control method using light, attracts various insects, but a minority of pests that are not captured after the induction produce secondary damage by the surrounding crops, It has disadvantages that can result.

It is necessary to search for various wavelengths and light quantities in order to secure the above problems and to control specific pests in a limited space of the plantation site and not to attract the remote pests present in the outside.

In order to solve the above-described problems, the present invention aims to observe the attractor response of a beetle's chestnut according to wavelength through an LED having a specific wavelength, and to provide basic data for development of a attractor in the future. Particularly, it is aimed to search and set a light condition that exhibits the maximum effect with a minimum amount of light and time by using a high-brightness LED whose light quantity is controlled so as to induce only the puffy moth without selecting the pest located at a remote place .

In order to achieve the above object, the present invention provides a device as set forth in Korean Patent Application No. 10-2010-0090818 (Apr. (470 ± 10 nm, 1W), green (520 ± 5 nm, 1W), red (625 ± 10 nm, 1W), yellow (590 ± 5 nm, 1W) and white (450 - 620 nm, 1 W) LED.

Particularly, since the insect characteristics discriminating apparatus has a cooling fan which is operated in a laboratory in which a certain environment (temperature and humidity) is maintained and can remove heat generated from the light source, Other environmental factors do not affect the experiment.

In addition, the LED used in the experiment uses a high-brightness LED capable of realizing a high light amount, and it is possible to conduct various experiments under various light conditions by controlling the exposure time by implementing various light amounts through the controller.

A method for searching for the wavelength of the parasitic swarm attracting light according to the second embodiment of the present invention includes the steps of irradiating light by setting a light amount or an exposure time according to an LED wavelength; Injecting the parasitoid with the light blocked; A step of exposing the introduced parasitic nematode to light by adjusting the curtain film; Moving the charged parrot parrot according to the irradiated light; Determining a position after the reaction is terminated; And determining a characteristic of the parrot parrot based on the detected position of the parrot parrot.

As described above, the present invention relates to a method for controlling insect pests, which is an object of distrust to consumers, in order to control pests, Based on the results obtained through this study, it is worth using as a useful data for the development of catching and catching devices of the parrot persimmon.

In addition, the incentive reaction experiment is performed under various conditions by adjusting the light amount and the exposure time as well as the wavelength, so that it is possible to set an optimal irradiation condition after installing the attracting and trapping apparatus in the plantation site in the future.

FIG. 1 is a schematic view illustrating a movement path of a parrot parrot in an insect characteristic discriminating apparatus according to a preferred embodiment of the present invention.
FIG. 2 is a flowchart illustrating a search method of wavelength of swallowing dust according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the following examples. It is to be understood that the scope of the present invention is not limited by the following embodiments and that various modifications and changes may be made without departing from the scope of the present invention by those skilled in the art .

Experimental equipment and pest preparation

Among the five LEDs, blue (470 ± 10 nm, 1 W), green (520 ± 5 nm, 1 W), red (625 ± 10 nm, Ciel light), and a yellow (590 ± 5 nm, 1 W) LED was purchased from Photron. The insect behavior response experiment device (Fig. 1) used in the experiment was the device described in 'Insect Characteristic Identification Apparatus and Method' presented in Korean Patent Application No. 10-2010-0090818 (2010. 09. 16) Experiments were carried out in a dark room with a relative humidity of 60 ± 5% and a temperature of 27 ± 0.5 ℃.

In the experiment, S. exigua was maintained at a relative humidity of 60 ± 5%, temperature of 27 ± 0.5 ℃ and light ratio of 16L: 8D. Egg ~ larvae were grown on insect breeding dish (100 mm × H 40 mm ), The pupae and adult fishes were grown in growth chambers (W 350 mm × L 350 mm × H 350 mm) with different growth cages according to their growth stages and fed with artificial feeds of the composition as shown in Table 1 Respectively.

Insect behavior response test

(1) Test method

In order to search for the wavelength of incandescence, an LED to be used is selected and light quantity and exposure time are set to irradiate light (S210).

Thereafter, in the state where the light is blocked, the parasite is introduced into the experimental apparatus through the insect input port (S220).

The curtain is blocked between the light source and the parasitic nipples to allow the parasitic nipples to be exposed to light (S230).

In accordance with the irradiated light, the input parrot fly starts moving (S240).

After the reaction is terminated, the position is determined and the characteristics of the parrot parrot are determined based on the result (S250).

The above procedure is repeated to determine the significance of the test results (S260).

(2) Reactivity response by light quantity

In order to investigate the incentive response according to the amount of light, only the individuals with excellent activity within 7 days were selected. The selected 30 parasitoids were introduced into the experimental apparatus through the insect input device of the insect characteristics discriminator, and emitted light intensity 20, 40, 60, 80, 100 lux sequentially for each wavelength. The environment of the experiment proceeded in a dark room where the relative humidity of 60 ± 5% and the temperature of 27 ± 0.5 ° C were maintained, such as a pest environment. The light source exposed to the light source moved to three types of light condition, dark condition, and no reaction, and the location of the introduced species was determined after a certain reaction time.

As shown in Table 2, the LEDs of Example 2 exhibited a high induction reaction at 40 lux at the light intensity level. Particularly, white and green LEDs showed relatively high induction response at 40 lux and 26.0 ± 1.2 (86.7%) and 25.0 ± 0.6 (83.3%), respectively. 1.2) and yellow and red LEDs were 19.0 ± 1.0 (63%) and 16.0 ± 2.0 (53%), respectively. On the other hand, if the amount of light exceeding 40 lux is investigated,

(3) Attention reaction by time

In order to observe the induction reaction over time based on the 40 lux, which is commonly active at each wavelength, based on the results of the above-mentioned incidence reaction of light intensity, exposure time of each wavelength was sequentially 20, 40, 60, 80, and 100 minutes. As shown in Table 3, it can be seen that the incidence rate is higher as the exposure time is longer in all the light sources. In particular, white LEDs and green LEDs exhibited a high incentive response of 26.7 ± 1.5 (89%) and 27.0 ± 0.6 (90%), , Red LEDs were 24.0 ± 0.6 (80%), 19.0 ± 1.7 (63.3%) and 17.0 ± 2.6 (56.7%), respectively.

Based on the above results, when the results according to the exposure time were analyzed, it was determined that the change in the incidence rate after 60 minutes was not statistically significant, and 60 minutes was set as the optimum exposure time.

(4) induction and repelling activity under optimal conditions

As described above, the optimum condition of all the light sources used in the insect characterization apparatus was experimented by applying the above conditions at a light quantity of 40 lux and an exposure time of 60 minutes, and each experiment was repeated three times. As shown in Table 4, the response of the white LED was 27.3 ± 0.9 (91.1%), and that of green, blue, yellow and red LED was 26.7 ± 0.9 (88.9%), 24.3 ± (81.1%), 19.0 ± 1.7 (63.3%) and 17.0 ± 1.0 (56.7%), respectively.

Based on the above results, the statistical program SPSS was used to compare the incidence rates between LEDs, and one-way ANOVA ( p <0.05) As a result, there was a significant difference between white, blue, green LED and red yellow LED. In particular, the white LED showed the highest incidence rate, confirming its potential as a light source of attractiveness for the future.

(5) Mixed light induction and repellent activity at optimal conditions

The experiment was repeated three times by mixing the short wavelength LEDs with the optimum irradiation condition of 40 lux and the irradiation time of 60 minutes applied to the attracting and repelling activity under the optimum conditions. However, in the case of white of monochromatic light, the wavelength is broader than other short wavelengths, so it is set as a quasi-short wavelength, and white wavelengths are excluded from the experiment. As a result, as shown in Table 5, the blending wavelength of blue and green (470 · 520 nm) exhibiting high attraction activity at monochromatic wavelength was 28.0 ± 1.0 (93.3%), indicating higher attraction activity than that of each short wavelength In addition, it was found that the mixing ratio of red or yellow, which has a high inducing activity in monochromatic light, is slightly lower than that in monochromatic light. In addition, red and yellow mixed light (625 · 590 nm) showed the lowest induction activity of 17.0 ± 4.0 (56.7%).

Based on the above results, it was observed that the white LED wavelength and the blue / green mixed light wavelength exhibit the attractiveness activity applicable to the physical control of the parrot parrot.

Claims (3)

A wavelength of 470 ± 10 nm, a green LED of 520 ± 5 nm wavelength and a white LED of 450 to 620 nm wavelength as a light source,
Wherein the LED is irradiated at 40 lux for 60 minutes. delete delete

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