KR20180125786A - Composition for controling pest containing coriandrum sativum oil or Cinnamomum cassia oil - Google Patents

Abstract

The present invention relates to a composition for pest control which shows a pest control effect for stored product insects and brown wing leafhoppers. More specifically, the present invention relates to a composition for pest control containing coriandrum sativum oil or cinnamomum cassia oil.

Description

TECHNICAL FIELD [0001] The present invention relates to a composition for pest control, which comprises a high-purity essential oil or a cinnamon essential oil. [0002] Composition for control pest containing coriandrum sativum oil or cinnamomum cassia oil [

The present invention relates to a pest control composition showing a controlling effect against low pest and brown pest, and more particularly to a composition for pest control comprising high-purity essential oil or cinnamon essential oil.

Due to global warming and climate change, increase of pest density and increase of breeding power, change of crop cultivation environment and change of agroecosystem are increasing the incidence of insect pest and pest which cause severe damage to farmhouse. Barley moths, broad-leaved mites, and white moths are typical low-pest insects. Barley moths and moth moths have a considerable damage to stored grains mainly in larvae. Hinoki mite is a large number of stored grains, eggs, ham, cheese Of stored food. This causes allergic diseases, acute intestinal infections and systemic hypersensitivity to food industry workers and farmers handling stored agricultural products and stored foods, resulting in enormous economic losses. In addition to major crops such as apple, peach, persimmon, and other fruit trees, brown winged lepidopteran, a pandemic pest that was first discovered in Korea in 2010, damages most of the trees in forests such as leather trees, have. Brown winged lepidoptera is an outbreak pest which is relatively recently discovered on the Korean peninsula, and its research and management methods are insufficient.

Methods for controlling insect pests and pest insects include physical methods such as heating, low temperature storage, Hermetic storage and CA controlled storage, and sticky traps depending on the food, Chemical methods by chemical treatments such as fumigants and contact insecticides are commonly used. However, these physical methods are expensive to construct and maintain, and the indiscriminate use of chemical agents causes ecosystem disturbances such as soil microorganisms and natural enemies, the occurrence of drug-resistant pests, environmental pollution caused by pesticide residues and chronic poisoning There is a possibility of causing a serious problem of. Therefore, there is a desperate need for a new stable composition for controlling pests such as barley moths, moths moths, broad-leaved mites, and brown-winged lycopodias that cause economic loss.

The inventors of the present invention discovered that insecticidal insecticide or insecticide essential oil effectively killed insect pests while investigating insecticidal methods against insect pest and insect pest.

It is an object of the present invention to provide a composition for controlling pests including highly purified essential oils or cinnamon essential oils, and a method for pest insect pest control using the pest control composition.

In order to accomplish the above object, the present invention provides a composition for controlling low pest insecticide containing a highly purified essential oil.

The insect pest may be any one selected from the group consisting of barley moth, moth moth, and mulberry leaf mite.

The insect pest may be a nymph or an adult.

The highly purified essential oil may be characterized by containing at least one active ingredient selected from the group consisting of limonene, linanol, camphor and terpinene.

The effective amount of the active ingredient may be 26 to 78 ug / cm ² (ug / cm ³ ).

The present invention can provide a composition for controlling haggard moth or brown wing hymenoptera including cinnamon essential oil.

The hymenoptera or brown wing hymenoptera may be a nymph or an adult.

The cinnamon essential oil may be characterized by containing cinnamaldehyde or cinnamyl acetate as an active ingredient.

The amount of the active ingredient is 26 to 78 ug / cm ² (ug / cm ³ ) for the moth, and the concentration for the brown wing hymen is 100 to 400 m / Lg.

It is possible to provide a method of insect pest control using the composition for controlling pest.

In order to accomplish the above object, the present invention provides a composition for controlling low pest insecticide containing a highly purified essential oil.

The purified water can be extracted using the steam distillation extraction method.

In the present invention, the insect pest may be any insect selected from the group consisting of barley moth, moth moth, and mulberry moth.

The insect pest may be a nymph or an adult.

And may be characterized by comprising at least one active ingredient selected from the group consisting of limonene, linolen and camphor among the constituents of the above-mentioned highly purified essential oil.

The content of limonene in the compound contained in the highly purified essential oil may be 60 wt% to 70 wt%, preferably 62% to 68 wt%, and most preferably 100 wt% Lt; / RTI > by weight.

The content of camphor among the compounds contained in the highly purified essential oil may be 1 wt% to 10 wt%, preferably 2% to 8%, and most preferably 100 wt% By weight may be 6% by weight.

The content of terpinene in the compound contained in the highly purified essential oil may be from 0.1% by weight to 10% by weight, preferably from 1% to 5% by weight, based on 100% by weight of the essential oil extract, Most preferably 4% by weight.

The content of limonene in the compound contained in the highly purified essential oil may be 0.1 wt% to 10 wt%, preferably 1% to 5 wt%, relative to 100 wt% of the essential oil extract, By weight may be 4% by weight.

The effective amount of the active ingredient may be 26 to 78 ug / cm ² (ug / cm ³ ). If the effective ingredient amount is less than 26 ug / cm ² (ug / cm ³ ), there is no insecticidal effect. If the effective ingredient amount is more than 100 ug / cm ² (ug / cm ³ ), there is a possibility of causing harm to certain plants and grains.

The pest control composition containing the above essential oil as an active ingredient may be insecticidal by at least one method selected from the group consisting of fumigation, contact and feeding.

In the case of insect pests having an excellent fungicidal insecticidal effect, the insect controlling composition comprising the highly purified essential oil as an active ingredient is preferably at least one insect pest selected from the group consisting of barley moth, May be any one or more of insects selected from the group consisting of Rhizobia mosquito, Madagascar moth adults, Barley moth adults, and White moth moth larvae, and most preferably, Rhodiola mites.

In the case of insect pests having an excellent contact insecticidal effect, the insect controlling composition comprising the highly purified essential oil as an active ingredient may be any one or more pests selected from the group consisting of barley moth, More preferably, it may be any one or more pests selected from the group consisting of adult mites and mulberry moths, and most preferably, it may be an adult mites.

The pest controlling composition may be formulated into any one or more form selected from the group consisting of a wetting agent, a liquid agent, an emulsion, a liquid wettable powder, a granule, a granule, a capsule, a fine powder, a mist, a coating agent, .

The present invention can provide a composition for controlling haggard moth or brown wing hymenoptera including cinnamon essential oil.

The cinnamon essential oil can be extracted using a steam distillation extraction method.

The hymenoptera or brown wing hymenoptera may be a nymph or an adult.

The cinnamon essential oil may be characterized by containing cinnamaldehyde or cinnamyl acetate as an active ingredient.

The content of cinnamic aldehyde among the compounds contained in the cinnamon essential oil may be 70% by weight to 90% by weight, preferably 75% to 85% by weight, based on 100% by weight of the essential oil extract, Most preferably 80% by weight.

The content of cinnamic acid acetate in the compound contained in the cinnamon essential oil may be 1 to 10% by weight, preferably 2 to 7% by weight, based on 100% by weight of the essential oil extract, , And most preferably from 5 wt% to 6 wt%.

The amount of the active ingredient is 26 to 78 ug / cm ² (ug / cm ³ ) for the moth and the concentration for the brown wing hymen is 100 to 400 m / Lg. The effective amount of the active ingredient is insufficient in the insecticidal effect when the amount is less than ²⁶ ug / cm ² (ug / cm ³ ) for Barley moth and Agaricus moth and 78 ug / cm ² (ug / cm ³ ) There is a possibility of causing harm to grains. Less than 100 mg / L of insecticidal effect is less than that of brown wing hymenoptera, and over 400 mg / L is likely to cause harm to certain plants and grains.

The insect controlling composition comprising the cinnamon essential oil as an active ingredient may be insecticidal by at least one method selected from the group consisting of fumigation, contact and feeding.

The pest control composition containing the cinnamon essential oil as an active ingredient may be any one or more pests selected from the group consisting of barley moth, moth moth moth, and brown wing moth pest in the case of insect pest having excellent fungicidal insecticidal effect, More preferably, it may be any one or more pests selected from the group consisting of Adult moth adults, Barley moth adults and Adult moth larvae, and most preferably Adult moth adults.

The pest controlling composition may be formulated into any one or more form selected from the group consisting of a wetting agent, a liquid agent, an emulsion, a liquid wettable powder, a granule, a granule, a capsule, a fine powder, a mist, a coating agent, .

It is possible to provide a method of insect pest control using the composition for controlling pest.

In the case of including the high-purity essential oil in the composition for controlling pest, it is possible to provide a method of insecting insect pest, and in the case of containing cinnamon essential oil, a method of insect pest insect or insect pest can be provided.

In the present invention, 'lethal dose for 50%, LD ₅₀ ' refers to the amount of toxic substance or dose of radiation that kills 50% of a group of experimental animals, and US Environmental Protection According to the classification, 50 mg to 500 mg (Class Ⅱ) per kg of body weight is classified as a toxic substance when the oral dose of lethal dose is 500 to 5,000 mg (Class Ⅲ) per kg body weight, If it is between 1 and 50 mg (Class Ⅰ), it is classified as highly toxic. 'Lethal concentration for 50%, LC ₅₀ ' refers to the gas concentration in the air and the concentration of the substance in the liquid that will kill 50% of a group of laboratory animals, expressed in mg / L. It is used as a classification criterion for toxic substances and specific toxic substances in Korea's Toxic Chemicals Control Act. For example, if the LC ₅₀ is less than 2 for 48 hours, it is designated as a toxic substance.

Hereinafter, preferred embodiments of the present invention will be described in order to facilitate understanding of the present invention. However, the following examples are provided only for the purpose of easier understanding of the present invention, and the present invention is not limited by the examples.

Example  1. Extraction and Analysis of High Seed Seed Oil

The high - temperature steam was supplied to the sample for 4 hours at 100 ℃. The essential oil component was separated from the water while it was liquefied by the steam distillation extraction method. The essential oils of the obtained high-grade seeds were analyzed by gas chromatography (Hewlett-Packard HP 6890, H5973 IV series). The column used was HPInnowax capillary column and DB5 column (0.25 mm id × 0.25 μm thickness × 2,990 cm). The carrier gas was helium and the temperature was 51-201 ° C (2 ° C / min). The temperature of the injector was 211 ° C and the ionization potential was 70 eV. The components were analyzed under the above conditions, and the results are shown in Table 1.

Analysis of Essential Oil Components of High Seed Seeds Retention
Time (min) Retention
Index Library Search % of total 4.978 939 Pinen 7.79 5.260 953 Kampen 1.51 5.952 992 Mirsen 1.01 6.634 1027 Cymen 2.94 6.722 1033 Limonene 3.79 7.275 1074 Terrinen 3.97 7.827 1084 Terpinolene 1.15 8.093 1100 Liner 66.80 8.905 1139 Camper 6.46 9.652 1195 Terpineol 0.37 12.538 1382 Geranyl acetate 3.17

From Table 1, the compounds contained in the highly seeded seeds were analyzed to confirm that rinanol (66.80%), camphor (6.46%), terpinene (3.97%) and limonene (3.79%) were identified. For the practice of the present invention, limonene, linanol and camphor were purchased from Sigma-Aldrich.

Example 2. Cinnamon  Essential oil extraction and analysis of envelope

The cinnamon envelope was crushed and placed in an extraction tank. The water vapor at a temperature of 100 ° C was supplied to the sample for 4 hours. The essential oil component was separated from moisture while being liquefied by a distillation extraction method using a steam distillation extraction method. The obtained essential oil of the cinnamon sheath was analyzed using gas chromatography (Hewlett-Packard HP 6890, H5973 IV series). The column used was HPInnowax capillary column and DB5 column (0.25 mm id × 0.25 μm thickness × 2,990 cm). The carrier gas was helium and the temperature was 51-201 ° C (2 ° C / min). The temperature of the injector was 211 ° C and the ionization potential was 70 eV. The components were analyzed under the above conditions, and the results are shown in Table 2. As shown in Table 2, cinnamaldehyde (80.20%) and cinnamaldehyde (5.77%) were identified by analyzing the compounds contained in the cinnamon coat. For the practice of the present invention, cinnamaldehyde and cinnamyl acetate were purchased from Sigma-Aldrich.

Analysis of essential oil components of cinnamon coat Retention
Time (min) Retention
Index Library Search % of total 5.424 960 Benzaldehyde 0.33 9.130 1160 Hydrocinnamide aldehyde 0.77 11.118 1283 Shin Nam Aldehyde 80.20 12.631 1377 Alpha-Copaen 2.30 13.493 1367 Cinnamyl acetate 5.77 13.539 1439 Coumarin 2.60 13.786 1467 Alpha-After Mullion 0.19 14.345 1523 Mulleren 1.39 14.473 1499 3-Ethoxy-hexa-1,5-dienyl-benzene 0.40 14.651 1519 Delta-Cardinen 1.77 14.698 1378 Methoxycinnamaldehyde 2.22 14.953 1859 Alpha-Karakoren 0.22 16.071 1580 Alpha-cedrene 0.45 16.329 1676 Cardinol 0.57

Experimental Example  One. Barley moth , Moth  And On the flounder mite  Insecticidal test of essential oil components of coriander seeds

In the present invention, the fumigant toxicity of adult moth, adult moth, mulberry moth, and adult moth larvae was examined using fumigation method. In the case of Barry moth adults and Adult moth larvae and adults, each sample was diluted in a solvent, treated with filter paper having a diameter of 90 mm, and then the solvent was volatilized for 10 minutes and attached to a glass bottle (100 × 80 mm) The individual was inoculated into a glass bottle. To prevent direct contact between the treated sample and the insect pest, the mouth of the bottle was covered with gauze. The glutinous adult mites were prepared by dissolving the diluted samples in various concentrations in a paper disc (8 mm), volatilizing the solvent in a fume hood for 10 minutes, and then attaching them to the microtube (2 ml) lid. Each treatment was stored in a constant temperature and humidity room maintained at 28 ± 1 ℃, 70 ± 5% RH, and 9L: 15D, and 48 hours for barley moths and 24 hours for barnyard moths. Respectively. Using a fine brush, the barley moth and glutinous rice flies were stimulated to the trunk of adult moths, and all the animals without movement were considered to have died. All tests were repeated three times. In the present invention, the contact toxicity of the adult moth larvae and mature larvae to the mites was examined using the contact method. In the contact method for adult moth larvae and rhizome mature adults, the essential oil of highly seeded seeds diluted to a constant concentration was dissolved in a solvent and treated on a petri dish (35 × 15 or 60 × 15 mm) bottom, followed by volatilizing the solvent in a fume hood for 10 minutes 30 individuals were inoculated and incubated in an incubator with a temperature of 27 ± 1 ℃ and relative humidity of 70 ± 5% for 24 hours. As shown in the following Table 3, the LD50 values of the barley moth, Mulberry moth, and Mulberry mulberry were found to be the highest fumigant activity of 0.003 mg / cm ³ for the adult fledglass mature adults, (0.0094 mg / cm ³ ), adult barley moth (0.0188 mg / cm ³ ) and adult moth larvae (0.526 mg / cm ³ ), respectively. In the case of contact activation, which showed the best powder ginteol contact activity of 0.0124 mg / cm ² for the mite adults, followed by exhibited excellent contact activity of each of 0.561 mg / cm ² for hwaranggok moth larvae.

The insecticidal and insecticidal activity of Experimental Example 1 of Example 1 and Comparative Experimental Example 1 Insect stage Method LD ₅₀ / LC ₅₀ (95% CI) Slop ± SE χ ²
(df, p )
Barley moths ^{1 )} imago fumigation
(mg / cm ³⁾ 0.0188
(0.0196-0.0282) 4.36 ± 0.67 5.505
(5, 0.357) Ginteol dust mite ²⁾ imago fumigation
(mg / cm ³⁾ 0.003
(0.0026-0.0035) 3.99 ± 0.63 4.919
(5, 0.426) contact
(mg / cm ²⁾ 0.012
(0.0093-0.0156) 2.50 + - 0.41 4.550
(5, 0.473) Indian Mealmoth ³⁾ larva fumigation
(mg / cm ³⁾ 0.526
(509.02-545.29) 3.49 ± 0.77 7.447
(4, 0.114) contact
(mg / cm ²⁾ 0.561
(532.16-584.97) 1.46 0.43 2.018
(4, 0.732) imago fumigation
(mg / cm ³⁾ 0.0094
(6.53-12.32) 2.21 ± 0.45 6.045
(5, 0.196) Brown winged ladybug ^{4 )} Nymph Ingestion inhibition
(mg / L) - - - imago contact
(mg / L) - - -

¹⁾ 30 adults per replicate; Exposed for 24 h

²⁾ 30 adults per replicate; Exposed for 24 h

³⁾ 30 larvaes per replicate; Exposed for 48 h

⁴⁾ 30 larvaes per replicate; Exposed for 24 h

compare Experimental Example  One. Brown wing  Insecticidal test of essential oil components of coriander seeds.

In the present invention, the feeding toxicity to the brown winged mosquito larvae was examined using a leaf spot method. Each sample diluted to various concentrations was immersed in a 30 mm diameter Mugungwha leaf for about 4 minutes, then volatilized at room temperature for 10 minutes, attached to a petri dish bottom for bioassay, and inoculated with 30 brownish worms. Thereafter, it was left in an incubator at a temperature of 21 ± 1 ° C., a relative humidity of 60 ± 5% and a light condition of 12:12 (note: night) for 72 hours, and then it was confirmed whether or not the brown winged mosquito nematode was killed. A microscopic brush was used to irrigate the trunk of the brown winged macrobenthos, and no movement was considered dead, and all tests were repeated three times.

In the present invention, contact toxicity to brown winged mite adults was examined using a contact method. In the contact method for brown wing lice, each sample diluted to various concentrations was randomly sprayed on the insect net inoculated with 30 individuals by hand-held sprayer. The treated insect net was allowed to stand for 72 hours in an incubator at a temperature of 21 ± 1 ° C., a relative humidity of 60 ± 5% and a light intensity of 12:12, and then examined for insecticidal activity. Using a fine brush, irritating the trunk of the brown winged moths adults was considered dead, and all tests were repeated three times. As shown in Table 3 above, the LC50 values for brown winged macrobenthos and adult humans were determined, and as a result, no insecticidal activity was shown at the doses used in this experiment.

Experimental Example  2. Barley moth , Moth  And On the flounder mite  The efficacy of the essential oils of the coriander seeds (limonene, Liner , Camphor and Terrinen ) Insecticidal test.

(Limonene, linanol, camphor and terpinene) of the essential oil of barley, moth, and mulberry moth, were tested in the same manner as in Experimental Example 1. As shown in Table 4 below, limonene and linerol showed excellent insecticidal and insecticidal activity against the adult mite, and camphor showed excellent insecticidal / insecticidal activity against adult mite and mite adult. In case of terpinene, it showed excellent insecticidal / insecticidal activity against the barley moth adults and adult moth adults.

The insecticidal and insecticidal activity of Experimental Example 2 of Example 1 Insect Dose
(쨉 g / cm ² ,
(㎍ / cm ³⁾ % Mortality Barley moth Chaff Moth Adult ^{1 )} Adult ^{2 )} Larvae ^{3 )} Adult ^{4 )} Limonene 52 0 100 0 0 26 0 70 0 0 Liner 52 0 100 0 0 26 0 100 0 0 Camper 52 100 100 0 100 26 80 100 0 100 Terrinen 52 90 30 0 100 26 30 10 0 100

¹⁾ Fumigant method; 30 adults per replicate; Exposed for 24 h

²⁾ Contact method; 30 adults per replicate; Exposed for 24 h

³⁾ Contact method; 30 larvaes per replicate; Exposed for 48 h

⁴⁾ Fumigant method; 30 adults per replicate; Exposed for 24 h

compare Experimental Example  2. Brown wing  The efficacy of the essential oils of the coriander seeds (limonene, Liner , Camper  And Terrinen ) Insecticidal test.

The insecticidal effects of the essential oils (limonene, linanol, camphor and terpinene) of the essential oil of the brown wing hymenoptera were tested in the same manner as in Comparative Experimental Example 1 above. As shown in the following Table 5, Comparative Example 2 did not show insecticidal activity against the brown winged macrobenthos and adult. (Limonene, linanol, camphor and terpinene) were tested in the same manner as in Comparative Experimental Example 1, except for the effectiveness of the essential oils of barley, mulberry and broad-leaved mite.

The insecticidal and insecticidal activity of Comparative Experimental Example 2 of Example 1 Insect Dose
(mg / L) % Mortality Brown winged lice Nymphs ¹⁾ Adult ^{2 )} Limonene 400 0 0 200 0 0 Liner 400 0 0 200 0 0 Camper 400 0 0 200 0 0 Terrinen 400 0 0 200 0 0 Negative control - 0 0

¹⁾ leaf dipping method; 30 adults per replicate; Exposed for 72 h

²⁾ Contact method; 30 adults per replicate; Exposed for 72 h

Experimental Example 3. Wolverine moth  And Brown wing  Insecticidal Test of Essential Oil Components of Korean Cinnamon Coat.

The insecticidal effect of the essential oil component of the cinnamon sheath against the haploid moth and brown wing hymenoptera was tested in the same manner as in Experimental Example 1 above. To, as shown in Table 6, as a result, cinnamon shell refinery calculated the LD50 values for hwaranggok moth showed the most excellent fumigation activity of 0.0013 mg / cm ³ for hwaranggok moth adults, followed by hwaranggok moth larvae (0.935 mg / cm ³ ), Respectively. Contact activity was 0.877 mg / cm ³ contact activity against H. moth larvae. As a result of eating inhibition and contact activity (LC50) for brown winged macrobenthos, adult and larvae, the cinnamon sheath essential oil showed excellent food inhibition and contact activity of 37.66 and 77.38 mg / L for brown winged macrobenthos.

The insecticidal and insecticidal activity of Experimental Example 3 of Example 2 Insect stage Method LD ₅₀ / LC ₅₀ (95% CI) Slop ± SE χ ²
(df, p ) Indian Mealmoth ¹⁾ larva fumigation
(mg / cm ³⁾ 0.935
(0.893-0.962) 3.33 ± 0.71 8.753
(4, 0.150) contact
(mg / cm ²⁾ 0.877
(844.07-902.04) 3.69 ± 0.74 6.368
(4, 0.173) imago fumigation
(mg / cm ³⁾ 0.0013
(1.06-1.63) 2.41 ± 0.49 3.417
(4, 0.491) Brown winged caterpillar ^{2 )} Nymph Ingestion inhibition
(mg / L) 37.66
(33.94-41.44) 4.37 ± 0.43 7.884
(8, 0.445) imago contact
(mg / L) 77.38
(69.79-85.16) 4.32 ± 0.42 10.165
(8, 0.254)

¹⁾ 30 adults per replicate; Exposed for 24 h

²⁾ 30 adults per replicate; Exposed for 24 h

Experimental Example  4. Moth  And Brown wing  Effectiveness of essential oils of cinnamon coat Shin Nam Aldehyde  And Cinnamyl acetate ) Insecticidal test.

The insecticidal effects of the essential oils (cinnamic aldehyde and cinnamyl acetate) of the essential oils of the cinnamon sheath against the moth and moth caterpillars were tested in the same manner as in Experimental Example 1 above. As shown in the following Tables 7 and 8, the cinnamaldehyde showed excellent insecticidal / insecticidal activity against the white moth adults, brown winged mosquito nematodes and brown winged miteworm nematodes, and cinnamic acid acetate exhibited excellent insect / And brown wing haploid nematode.

 The insecticidal activity of Experimental Example 4 of Example 2 Insect Dose % Mortality Hwaranggok adult moths ¹⁾ Shin Nam Aldehyde 52 (㎍ / cm ²⁾ 100 26 (㎍ / cm ²⁾ 100 Cinnamyl acetate 52 (㎍ / cm ²⁾ 100 26 (㎍ / cm ²⁾ 40 Negative control - 0

¹⁾ Fumigant method; 30 adults per replicate; Exposed for 24 h

The insecticidal activity of Experimental Example 4 of Example 2 Insect Dose (mg / L) % Mortality Brown winged lice However, Adult 2) Shin Nam Aldehyde 400 100 100 100 100 100 Cinnamyl acetate 400 100 100 100 60 50 Negative control - 0 0

Claims (10)

 A composition for controlling low pest insects, comprising a high-purity essential oil. The composition according to claim 1, wherein the low-pest insect is at least one low-pest insect selected from the group consisting of barley moths, mosquito larvae, and broad-leaved mites. The composition according to claim 1, wherein the insect pest is a nymph or an adult. The low pest control composition according to claim 1, wherein the highly purified essential oil comprises at least one active ingredient selected from the group consisting of limonene, linanol, camphor and terpinene. 4 wherein, the dose of active ingredient is 26 to ^{78 ug / cm 2 (ug /} cm 3) is that which is characterized, Ju Hu pest control composition for a.   A composition for the control of an insect moth or a brown wing fungus including cinnamon essential oil. The composition according to claim 6, wherein the moth or moth caterpillar is a nymph or an adult. [7] The composition according to claim 6, wherein the cinnamon essential oil comprises cinnamaldehyde or cinnamyl acetate as an active ingredient. The method according to claim 8, wherein the effective amount of the active ingredient is 26 to 78 ug / cm ² (ug / cm ³ ) for the moth and the concentration is 100 to 400 mg / Composition for controlling moth or brown winged louseworm. A method of insect pest control using the composition of any one of claims 1 to 9.