The button mushroom, Agaricus bisporus, is one of the major economical crops cultivated in Korea. This mushroom showed the 5th production to 11,493 M/T in 2014. Several fungus are known as the causal agents of diseases of the cultivated button mushroom (Agaricus bisporus) and oyster mushroom (Pleurotus ostreatus). Cladobotryum mycophilum is the causal agent of cobweb disease of commercial mushrooms. Early symptoms were noticed as round, fleshy, yellowish brown lesions on mushroom caps. Late symptoms progressed when the parasitic fungus formed white cobweb circular colonies on dead or damaged pinheads, spread on the surface of the casing, and covered entirely fruiting bodies. A Gram-positive bacterium was isolated from mushroom media that markedly showed the antagonistic activity against Cladobotryum mycophilum, the most destructive pathogen of cultivated mushrooms. The HC57 strain was selected as antagonistic bacterium by inhibition zone method and it was identified as Bacillus subtilis by the cultural, morphological and physiological characteristics, and analysis of the 16S rDNA. The isolated bacterium is saprophytic but not parasitic nor pathogenic to cultivation mushroom. The isolated bacterium for Cladobotryum mycophilum cell, was sufficient for inhibition in vitro. Inoculation of the isolated bacterium prevents the development of bacterial disease in Cladobotryum mycophilum. Control efficacy of browning disease of strain HC57 treatment was 71% on Agaricus bisporus. The optimal culture medium for the antagonistic bacteria growth was determined as follows: 1.5% Xylose, 2% Soytone, 1% NH4H2PO4, 7 mmol CaCl2, and 0.5% Histidine at pH 6.0 at 25℃. The suppressive bacterium may be useful in future for the development of biocontrol system and the construction of genetically modified edible fungi resistant to the disease caused by Cladobotryum mycophilum.

The present issue of insect resistance and environmental toxicity of pesticides is triggering deep discussion about the pest management tactics, in which pest monitoring and control activity are mainly involved. Novel control agents, hopefully overcoming the present issues and problems, should be researched and commercially applied to the farm fields. With the monitoring-based research, additionally we have to focus on the control-based, particularly control agent-based research and application. Entomo- pathogenic fungi can used as one of the possible novel control agents once considerations are given to the control of soil- or water-dwelling pests. In our research group, the entomopathogenic fungal library has been constructed using the mealworm-based isolation system, which showed a variety of opportunities of their use in pest control. Important key production technologies including granular formulation have been developed to increase their industrialization. Some entomopathogenic fungal isolates showed high biological performance in the control of rice weevils, western flower thrips and Japanese bettles in field stands. To elucidate the fungal mode of action, a fungal transformation system using AtMT and gene identification tools were established. Recently a more deep study about the relationship between insect and entomopathogenic fungi is be investigated using RNA seq. We suggest that to make the entomopathogenic fungal products be applied to agricultural farm field, R&D of down-stream process should be seriously considered as the key step.

ocust, Locusta migratoria (Orthoptera: Acrididae) is one of the outbreaking pests worldwide and such big occurrence was recorded in 2014, Korea, however little consideration was given to the management strategy of the pest. Herein we established a indoor locust-rearing system and constructed a locust-pathogenic fungal library to further facilitate the resources to be used as possible biological control agents. A locust colony was provided from the National Institute of Agricultural Science and Technology and reared in corn or barley plants at artificially manipulated rooms. The critical developmental stages, such as oviposition, hatching and mating were successfully proceeded. Entomopathogenic fungal granules were treated to the locust (2 g/rearing box), and in 5~7 days mycosis was observed in the membranous cuticles of head, abdomen and legs. In particular JEF-003 (Metarhizium anisopliae), JEF-186 (M. lepidiotae) and JEF-187 (Clonostachys rogersoniana) showed high virulence against the locust. A population of locust was exposed to the entomopathogenic fungal conidia-incorporated soil to investigate the possibility of the fungal isolation from natural soil, which resulted in the pathogenesis in 7~10 days in laboratory conditions. More than 80% of control efficacy was observed in the greenhouse trial of fungal granular application. This work suggests that locust rearing system was successfully established and entomopathogenic fungi can be used to control the migratory locust.

This study were performed in Tropical Plant Resources Research Center of Korea National Arboretum, Pocheon, Korea to assess the effects of beneficial insects against Pseudococcus comstocki (Kuwana) on Phyllanthus acidus (Linnaeus) Skeels and Tetranychus urticae Koch on Acalypha wilkesiana Muell Arg. We investigated the density of leaf-feeding P. comstocki at intervals of approximately 2 weeks and T. urticae at intervals of approximately 1 weeks after introducing their natural enemies; Chrysoperla nipponensis (Okamoto) and Phytoseiulus persimilis Athias-Henriot. The densities of P. comstocki were suppressed 80.0% (after 4 weeks) and 97.5% (after 8 weeks) after introducing C. nipponensis. The densities of T. urticae were suppressed 84.1% (after 4 weeks) and 99.6% (after 6 weeks) after introducing P. persimilis.

Mushroom is cultivated as one of the major economical crops in many areas in Korea. The total production has steadily increased from approximately 198,563 M/T in 2009 to 208,941 M/T in 2012. Several fungus are known as the causal agents of diseases of the cultivated button mushroom (Agaricus bisporus) and oyster mushroom (Pleurotus ostreatus). Trichoderma harzianum is the causal agent of brown blotch disease of commercial mushrooms. Colonization of mushroom caps by the bacterium results in development of brown or cream lesions on pileus and stipe. These lesions are slightly concave spots and can be round or spreading. Antagonists against Trichoderma harzianum, CAM33 were selected and their control efficacy of green mould disease was investigated in this study. The CAM33 strain was selected as antagonistic bacterium by inhibition zone method and it was identified as Bacillus methyrotrophicus. by the cultural, morphological and physiological characteristics, and analysis of the 16S rDNA. The isolated bacterium is saprophytic but not parasitic nor pathogenic to cultivation mushroom. The isolated bacterium for Trichoderma harzianum cell, was sufficient for inhibition in vitro. Inoculation of the isolated bacterium prevents the development of bacterial disease in Trichoderma harzianum. Control efficacy of browning disease of strain CAM33 treatment was 77% on Agaricus bisporus. The optimal culture medium for the antagonistic bacteria growth was determined as follows: 3.0% Saccharose, 1.5% Soytone, 1.0% (NH4)2HPO4, 10 mmol MgSO4, and 2.0% Glutamic acid at pH 6.0 at 25°C. The suppressive bacterium may be useful in future for the development of biocontrol system and the construction of genetically modified edible fungi resistant to the disease caused by Trichoderma harzianum.

The button mushroom, Agaricus bisporus, is one of the major economical crops cultivated in Korea. This mushroom showed the 5th production to 10,996 M/T in 2012. Several fungus are known as the causal agents of diseases of the cultivated button mushroom (Agaricus bisporus) and oyster mushroom (Pleurotus ostreatus). Cladobotryum mycophilum is the causal agent of cobweb disease of commercial mushrooms. Early symptoms were noticed as round, fleshy, yellowish brown lesions on mushroom caps. Late symptoms progressed when the parasitic fungus formed white cobweb circular colonies on dead or damaged pinheads, spread on the surface of the casing, and covered entirely fruiting bodies. A Gram-positive bacterium was isolated from mushroom media that markedly showed the antagonistic activity against Cladobotryum mycophilum, the most destructive pathogen of cultivated mushrooms. The HC7 strain was selected as antagonistic bacterium by inhibition zone method and it was identified as Bacillus altitudinis. by the cultural, morphological and physiological characteristics, and analysis of the 16S rDNA. The isolated bacterium is saprophytic but not parasitic nor pathogenic to cultivation mushroom. The isolated bacterium for Cladobotryum mycophilum cell, was sufficient for inhibition in vitro. Inoculation of the isolated bacterium prevents the development of bacterial disease in Cladobotryum mycophilum. Control efficacy of browning disease of strain HC7 treatment was 78% on Agaricus bisporus. The optimal culture medium for the antagonistic bacteria growth was determined as follows: 3% Soluble startch, 10% Soytone, 1% (NH4)2HPO4, 1 mmol KCl, and 0.5% L-asparagin at pH 6.0 at 30°C. The suppressive bacterium may be useful in future for the development of biocontrol system and the construction of genetically modified edible fungi resistant to the disease caused by Cladobotryum mycophilum.

There are relatively few cases of classical biological control in Korea. During 1904 to 1905 the wooly apple aphid, Eriosoma langigerum, had been happen to invade into Korea from Japan together with imported seedling of apple and its damage spread to Jinampo near Pyoung-Yang City and it occurred all across the country by 1934. In 1934 a parasitic wasp, Aphelinus mali, was introduced and released to apple orchards and found established in nature. And it was the first case of classical biological control in Korea. Afterward couple of classical biological control programs against invaded pests were conducted mainly by the RDA with variable results. For example the orange scale, Ceroplastes rubens, and the Eggar which were successfully controlled by introduction Anicetus beneficus and Thecodiplosis pinico, respectively.

Biological control as a tactic of environmentally safer agriculture has not been widely accepted by farmers. In Japan integrated biological control with native natural enemies is rapidly developing for greenhouse vegetables, because of high prices of commercially mass-reared biological control agents. We have studied the effective use of natural enemies at farm level, focusing on generalist predators, although there are differences in using natural enemies for augmentation in greenhouses and conservation in open fields. Recently, however, insectary plants (crops) have been considered as a key component for enhancing natural enemies. We have examined the effectiveness of candidate insectary plants on natural enemies and implemented biointensive IPM with insectary plants at farm-level. Our recent study suggested that some herbs and crops are highly effective on improving the survival and reproduction of generalist predators. By growing such plants in vegetable greenhouses and open-fields, natural enemy populations could be enhanced and thus stably persist even after targeted prey populations are exploited. Moreover, insectary plants may result in a shift of IPM from level I to level II.

In Korea, in 1970s and 1980s a few research for biological control program was conducted mostly for agricultural field crop and forest insect pests. Since 1990s when the greenhouse cultivation area increased significantly and the insect pest problem thereby increased highly, the needs for practical biological control program for greenhouse pests increased accordingly. In 1990s especially when Tetranychus urticae in strawberry, Trialeurodes vaporariorum and Liriomyza bryoniae in cucumber and tomato, and Aphis gossypii in cucumber became a major problem, demand for use of commercially produced biological control agents such as Phytoseiulus persimilis, Encasia formosa, and Aphidius colemani increase rapidly but these commercially available biological control agents in foreign countries were not allowed to be imported at that time. Therefore, temporary pilot study for application these natural enemies began in mid 1990s by the National Institute of Agricultural Science and Technology, RDA and some provincial agricultural extension center. The greenhouse biological control research and natural enemy industry began to flourish when 7 species of exotic biological control agents were officially permitted for import in 2003 and the promotion program for horticultural insect pest management using natural enemies was implemented from 2005. Unfortunately, when this promotion program was terminated in 2010 the Korean natural enemy industry began to collapse and also biological control research activity decreased significantly. In this presentation, past and current status of the biological control research activity and natural enemy industry in Korea will be addressed and the future perspective will be cautiously discussed.

In insects, the sense of smell is a complex and highly sensitive modality, governing essential decisions such as choice of food and oviposition sites. Plants emit substantial amounts of volatile organic compounds (VOCs), and the characteristic scent represents a dynamic communication channel. Understanding this odor-mediated system is critically important in the habitat management and in the largest view of the conservation biological control. Here we suggest that the fitness of the egg parasitoid ,an important biological control agent of the green vegetable bug may be improved through the understanding of chemical communication in the biological control system. Initially, the attractiveness of four flowering plant species, chosen from apanelofplants based on the longevity of the eggparasitoid on these plants, to T. basalis was assessed, which indicated significant behavioral attraction of T. basalis to the buckwheat flowers. Subsequently, and GC-MS analysis were carried out to identify the olfactory-active VOC semanated from buck wheat, demonstrating that the antennalol factory receptor neurons of T. basalis were responsive to some aliphatic acids as well as a few common plant volatiles. In behavioral bioassays using synthetic formulation based on the chemical and electrophysiological analysis, T. basalis exhibited significant behavioral attraction to the synthetic blend at optimum dose. The findings, in a wider perspective, form the basis for further improvement of the use of the companion plants that may increase the insects’ communities’ ability to persist in an environment.

The button mushroom, Agaricus bisporus, is one of the major economical crops cultivated in Korea. This mushroom showed the 5th production to 10,996 M/T in 2012. Several bacteria are known as the causal agents of diseases of the cultivated button mushroom (Agaricus bisporus) and oyster mushroom (Pleurotus ostreatus). Pseudomonas agarici is the causal agent of browning disease of commercial mushrooms. Colonization of mushroom caps by the bacterium results in development of browning lesions on pileus. These lesions are superficial brown spots and can be round or spreading. But P. agarici never caused sunken lesions and rotting of the mushroom tissues. A Gram-positive bacterium was isolated from mushroom media that markedly showed the antagonistic activity against Pseudomonas agarici, the most destructive pathogen of cultivated mushrooms. The HC42 strain was selected as antagonistic bacterium by inhibition zone method and it was identified as Bacillus safensis. by the cultural, morphological and physiological characteristics, and analysis of the 16S rDNA.. The isolated bacterium is saprophytic but not parasitic nor pathogenic to cultivation mushroom. The isolated bacterium for P. agarici cell, was sufficient for inhibition in vitro. Inoculation of the isolated bacterium prevents the development of bacterial disease in Agaricus bisporus. Control efficacy of browning disease of strain HC42 treatment was 66% on Agaricus bisporus. The optimal culture medium for the antagonistic bacteria growth was determined as follows: 1.5% D-galactose, 1.5% yest extract, 1% NH4Cl, 1.5% KCl, and 1.0% L-asparagin at pH 6.0 at 25℃. The suppressive bacterium may be useful in future for the development of biocontrol system and the construction of genetically modified edible fungi resistant to the disease caused by P. agarici.

This paper studies on the effects of new biological control system, particularly on banker plants of Orius laevigatus to control Frankliniella occidentalis on rose. Orius banker plants for Frankliniella occidentalis were investigated under the conditions of photoperiod 16L:8D, 70 ± 5% RH and 22 ± 2oC. Three types of plants(Sedum sarmentosum, ortulaca grandiflora, Mentha rotundifolia) were used to effectiveness verification of egg taking. And P. grandiflora has been selected as the banker plants for O. laevigatus. Result from this banker plants clearly demonstrated that the population of F. occidentalis was kept under the economic threshold level (1.9 per flower).

Recently, it has been demonstrated in several predator-prey interactions that predators influence prey population dynamics by inducing behavioral changes in prey as well as by feeding on prey. Accumulating evidence supports that prey change habit use patterns and activity levels in repose to predation risks. In the studies reported here, we examined the resource use patterns by adult whitefly, Bemisia argentifolii (Hemiptera: Aleyrodidae) in response to its natural enemies. The first study examined whether, in the context of a trap crop system, differential predation risks among plants influence host choice patterns of adult whiteflies. We investigated whether whiteflies avoid natural enemies inhabiting a cash crop (poinsettia) and whether this behavior can be used to increase the movement of whiteflies to a trap crop (cucumber). Three natural enemies were tested: two predators, Amblyseius swirskii and Delphastus catalinae and a parasitoid Encarsia formosa. The presence of D. catalinae on cash crop induced significantly more whiteflies to disperse to predator-free trap crop, compared with cash crop with no predator. A. swirskii and E. formosa did not result in a significant increase. The second study examined habitat choice patterns by adult whiteflies in response to D. catalinae at different spatial scales. When female whiteflies were confined in small leaf-disc arenas, whiteflies significantly delayed settling on leaf-discs with predators compared those with no predators. The presence of D. catalinae altered the vertical distribution of whiteflies on cucumber plants. Whiteflies moved upward faster over time within the plant canopy when predator were present at lower canopy compared with plants with no predator. However, D. catalinae did not result in elevated between-plant movement of whiteflies in the greenhouse, compared with that with no predator. Predator avoidance behavior by adult whiteflies should be considered in the development of biological control programs.

원목 표고버섯 재배지에서 발생하여 피해를 주는주요 버섯파리 종은 작은뿌리파리(Bradysia difformis),B. alpicola(가칭, 표고큰검정버섯파리) 및 Camptomyiacortocalis(가칭, 표고버섯혹파리)로 조사되었다. 원목표고재배 농가에서 이들 3종의 버섯파리는 1년 중에서 작은뿌리파리는 3월 중순, 표고큰검정버섯파리와표고버섯혹파리는 5월 초순에 초발생 하였다. 표고버섯 재배지에서 황색 끈끈이트랩을 이용한 작은뿌리파리의 성충 발생수를 조사한 결과 2012년에는 동면에서 11.9~1,774.3마리, 풍세면에서 0.4~2,583.3마리로 두 지역에서 7월 하순에 발생최성기를 보였다.2013년에는 동면에서 10.7~4,650마리, 풍세면에서36.8~4,740마리로 두 지역에서 6월 중순에 발생최성기를 보였다. 표고큰검정버섯파리의 성충 발생수는동면에서 2012년과 2013년에 각각 2.1~63.2마리, 0.8~163.7마리였고, 발생최성기는 각각 6월 중순과 5월하순이었다. 풍세면에서는 성충 발생수가 각각1.0~21.7마리, 0.5~280.5마리가 발생하였고, 발생최성기는 6월 초순과 5월 하순이었다. 표고버섯혹파리는 2012년과 2013년에 각각 성충 발생수가 동면에서0.6~4.7마리, 2.1~17.3마리였고, 발생최성기는 5월 중순과 6월 중순이었다. 풍세면에서는 0.3~1.5마리,1.3~17.6마리가 발생하였고, 발생최성기는 5월 중순과5월 하순이었다. 버섯파리의 표고버섯 자실체 피해율은 동면에서 2012년과 2013년에 각각 0.6~25.5%,0.7~30.5%였고, 풍세면에서 각각 1.5%~21.6%, 1.9~36.8%로 6월 중순7월 하순에 피해가 많았다. 원목표고버섯을 재배하는 천안시 동면과 풍세면에서 천적인 아큐레이퍼응애를 이용하여 버섯파리(작은뿌리파리+표고큰검정버섯파리+표고버섯혹파리)의 방제효과를 알아본 결과 m² 당 아큐레이퍼응애의 약충과성충을 30마리 밀도로 5월 2일, 5월 28일, 6월 25일,7월 10일, 7월 25일, 8월 28일 등 6회 처리하여 우수한 방제효과를 얻었다. 동면의 표고재배 농가에서는아큐레이퍼응애 처리구에서 버섯파리의 성충 발생수가 끈끈이트랩 당 평균 202.8마리, 자실체 피해율은 평균 3.7%로 무처리구와 비교하여 각각 79.3%,74.8%가 감소되었다. 풍세면의 표고재배 농가에서는끈끈이트랩 당 성충 유인수가 평균 417.1마리, 자실체의 피해률은 6.0%로 무처리구와 비교하여 각각64.1%, 65.5%가 감소되었다. 따라서 포식성 천적 아큐레이퍼응애는 원목 표고버섯 재배지에 발생하는 버섯파리 3종을 효과적으로 방제하였고 피해율도 감소시켜 우수한 생물적 방제 수단이 될 것으로 개대된다.

Yellow tea thrip (Scirtothrips dorsalis Hood (Thysanoptera: Thripidae) is anthophilous pests of many crops worldwide including five flavor berry. And the mealy bug (Pseudaulacaspis cockerelli (Cooley) (Hemiptera: Diaspididae)) is one of the hardest pests to control. Its body is covered with white waxy threads, which often make a chemical pest control useless. Five flavor berry (Schisandra chinensis Baill) is used in traditional Chinese medicine. So, the development of biological control against the major pest on five flavor berry is of great interest. In this work, a treatment of Chrysoperla nipponensis (Okamoto) was applied to five flavor berry fields infested by P. cockerelli and a treatment of Amblyseius swirskii Athias-Henriot was applied to two types of five flavor berry fields infested by S. dorsalis. Even though our tests found significant differences between the two culturing method(sod culture, nonwoven type mulching), the treatment of biological control agents decreased or a little increased the fruit damage, which was comparable to the chemical insecticide treatment. In the sod culture experiment, thrip population was significantly low and increased at a lower rate than in the nonwoven type mulching. It may be suggested from these results that A. swirskii and C. nipponensis as IPM program and sod culture could be incorporated into the integrated pest management system on five flavor berry.

Streptomyces padanus IA70-5 has been shown to be a promising biological control agent for the suppression of pepper anthracnose. In this study, we assessed the potential use of strain IA70-5 as a biological control agent for Phytophthora blight caused by Phytophthora capsici. Strain S. padanus IA70-5 was found to inhibit the mycelial growth and zoosporangium formation of P. capsici causing Phytophthora blight on pepper plants. In experiments with hot pepper fruit, IA70-5 suppressed the progression of Phytophthora rot by over 90% in pre-inoculated treatments with culture suspension. In experiments with 60-day-old pepper plants, IA70-5 suppressed Phytophthora blight by over 90%. These results demonstrated the potential for S. padanus IA70-5 to provide a practical biological agent for the control of Phytophthora blight in the field.

Mushroom is cultivated as one of the major economical crops in many areas in Korea. The total production has steadily increased from approximately 186,400 M/T in 2007 to 190,111 M/T in 2011. The button mushroom, Agaricus bisporus, showed the 5th production to 13,052 M/T in 2011. Several bacteria are known as the causal agents of diseases of the cultivated button mushroom (Agaricus bisporus) and oyster mushroom (Pleurotus ostreatus). Pseudomonas agarici is the causal agent of browning disease of commercial mushrooms. Colonization of mushroom caps by the bacterium results in development of browning lesions on pileus. These lesions are superficial brown spots and can be round or spreading. But P. agarici never caused sunken lesions and rotting of the mushroom tissues. Antagonists against P. tolaasii, HC42 were selected and their control efficacy of browning disease was investigated in this study. Antagonists against P. agarici, HC42 were selected and their control efficacy of browning disease was investigated in this study. After proceeding antagonistic test, HC42 was selected as a strong antagonist against P. agarici and the HC42 strain was identified as P. safensis with the cultural, physiological and biochemical properties and analysis of the 16S rRNA. The optimal culture medium for the antagonistic bacteria growth was determined as follows: 1.5% D-galactose, 1.5% yest extract, 1% NH4Cl, 1.5% KCl, and 1.0% L-asparagin at pH 6.0 at 25℃. Control efficacy of browning disease by HC42 treatment was 66% on Agaricus bisporus..

Mushroom is cultivated as one of the major economical crops in many areas in Korea. The total production has steadily increased from approximately 186,400 M/T in 2007 to 190,111 M/T in 2011. The button mushroom, Agaricus bisporus, showed the 5th production to 13,052 M/T in 2011. Several bacteria are known as the causal agents of diseases of the cultivated button mushroom (Agaricus bisporus) and oyster mushroom (Pleurotus ostreatus). Pseudomonas agarici is the causal agent of browning disease of commercial mushrooms. In this study, antagonistic bacteria to P. agarici were selected in vitro tests using confrontation bioassay and paper disk diffusion assay. The most active bacteria, HC12 were selected and their control efficacy of brown blotch disease was investigated in this study. After proceeding antagonistic test, HC12 was selected as a strong antagonist against P. agarici and the HC12 strain was identified as Alcaligenes sp. with the cultural, physiological and biochemical properties and analysis of the 16S rRNA. The optimal culture medium for the antagonistic bacteria growth was determined as follows: 0.5% dextrin, 1.5% yest extract, 1% NaNO3, 0.5% KH2PO4, and 1.5% L-asparagin at pH 9.0 at 30℃. Control efficacy of browning disease by HC12 treatment was 63% on Agaricus bisporus..

The yellow spotless ladybug (YSL), Illeis koebelei is a kind of aboriginal ladybug in Korea. YSL feed on the fungi and extraordinary prefer to powdery mildew (PM). This study was conducted to investigate the developmental characteristic and the biological control effect on the cucumber PM by the YSL from 2010 to 2012. YSL were detected on the 12 species of host plants infected with PM. and occurrence was observed from the early of July to the early of November in Gyeonggi area. The feeding amount of YSL on the cucumber PM was in order of 4th larva, adult, 3rd larva, 2nd larva and 1st larva. The optimum developmental temperature and photoperiod for YSL was 20∼25℃ and 16L:8D respectively. Three species of fungi were selected as the short term substitution feed for YSL. Control effect on cucumber PM under 2.5% of occurrence rate was linearly increased in proportion to increased numbers of 3rd larva were applied. Combination treatment of the fungal agent with YSL enhanced suppression of cucumber PM more than either agent used alone. The safety agricultural chemicals were selected harmless to the survival of larva and adult of YSL. The survival rate of pupae and adult was over 80% after storage at 10∼12℃ for 30 days. Five species of banker plant were selected for maintenance of YSL during growing season in greenhouse.

국내 배추좀나방(Plutella xylostella) 집단은 피레스로이드 농약에 대해서 저항성을 보이며, 이는 이 살충제의 작용점인 소듐이온채널 유전자의 돌연변이에 기인된다. 더욱이 배추좀나방은 대부분 상용화된 살충제에 대해서 저항성을 발달시킬 수 있다. 본 연구는 배추좀나방을 효과적으로 방제하기 위해 내부기생성 천적인 프루텔고치벌(Cotesia plutellae)과 미생물농약인 Bacillus thuringiensis의 혼합처리 기술을 개발하기 위해 수행되었다. 프루텔고치벌이 감수성과 저항성 배추좀나방에 대한 기생 선호성에 차등이 있는 지 조사하기 위해 다섯 개 서로 다른 집단에 대해서 살충제 감수성과 프루텔고치벌 기생성 차이를 비교하였다. 이들 배추좀나방 집단들은 피레스로이드, 유기인계, 네오니코틴계 및 곤충성장조절제를 포함하는 세 종류의 상용 살충제에 대한 약제 감수성에서 뚜렷한 차이를 보였다. 그러나 이들 집단들은 프루텔고치벌에 의한 기생률에서는 차이를 보이지 않았다. 더욱이 기생된 배추좀나방은 B. thuringiensis에 대해서 감수성이 증가되었다. 프루텔고치벌이 갖는 면역억제인자 가운데 바이러스 유래 ankyrin 유전자(vankyrin)를 비기생된 배추좀나방에 발현시켰다. Vankyrin의 발현은 배추좀나방 3령충의 B. thuringiensis에 대한 감수성을 현격하게 증가시켰다. 즉, 프루텔고치벌에 의해 야기된 면역저하가 B. thuringiensis의 살충력을 증가시켰다. 이러한 결과들은 프루텔고치벌과 미생물농약인 B. thuringiensis의 혼합처리가 살충제 저항성 배추좀나방을 효과적으로 방제할 수 있다고 제시하고 있다.