• 한국자원식물학회지
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• 제19권5호
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• pp.598-601
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• 2006

밤나무림내에 sprinkler system을 고정 설치하고, 이를 이용하여 적정한 시기에 일시에 그리고, 간편하게 약제를 살포함으로써 밤나무의 주요해충인 밤나무흑벌(Dryocosmus kuriphilus)의 피해를 효과적으로 방제할 목적으로 2003년부터 2년간 경남 산청군 신안면에서 본연구가 수행되었다. 공시약종은 carbaryl 50% WP, 1,500배액을 사용하였으며, 얻어진 결과는 다음과 같다. 밤나무흑벌 성충의 우화시기는 6월 중순부터 7월 중순까지 약35일간이며, 우화최성기는7월상순의 약 5일간이었다. 밤나무흑벌의 우화 및 산란시기에 Carbaryl 50% WP 1,500배액의 수관살포는 밤나무흑벌에 탁월한 방제효과가 있었다. 즉 매일살포구의 평균 충영형성율은 3.0%, 2일간격 살포구의 평균 충영형성율은 12.8%로서 이들은 무처리구의 평균충영형성율 82.9%와 비교하여 각각 96.4% 및 84.5%의 높은 방제효과가 인정되었으며 수관부위별로는 차이가 없었다.

• 한국응용곤충학회지
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• 제26권3호
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• pp.165-170
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• 1987

본(本) 실험(實驗)은 벼멸구에 대한 반수치사약량(半數致死藥量)의 차이(差異)를 나타내는 저항성(抵抗性) 및 감수성계통(感受性系統)과 그들의 교잡종(交雜種) $F_1$에 대(對)한 생화학적(生化學的) 특성(特性)을 구명(究明)하고자 실시(實施)하였다. 살충제무처리(殺蟲劑無處理)의 esterase활성(活性)은 저항성계통(抵抗性系統)과 교잡종(交雜種) $F_1$이 감수성계통(感受性系統)에 비(比)하여 높았으며, diazinon, MEP, BPMC 처리후(處理後) esterase의 활성변화(活性變化)는 저항성계통(抵抗性系統)과 교잡종(交雜種) $F_1$에서는 별차이(別差異)가 없었으나 감수성계통(感受性系統)에서는 현저(顯著)히 떨어졌다. Esterase의 높은 활성(活性)은 저항성발달(抵抗性發達)과 관계(關係)가 있었으며 교잡종(交雜種) $F_1$에서 esterase 활성(活性)이 높게 나타난 것은 저항성계통(抵抗性系統)이 우성인자(優性因子)로 유전(遺傳)됨을 알 수 있었다.

• 대한화학회지
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• 제10권2호
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• pp.62-66
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• 1966

Chloral hydrate와 置換 benzene類의 縮合에 依한 殺蟲劑로는 1,1,1-trichloro-2,2-bis(p-chloro phenyl) ethane, 1,1,1-trichloro-2,2-bis(p-methoxy phenyl) ethane, 1,1-di chloro-2,2-bis(p-chloro phenyl) ethane 等 主로 bis compounds가 實用化되고 있다. 그러나 置換 phenol類에 있어서는 chloral hydrate의 mol 比를 높이면 dioxane型의 化合物이 生成되고 上記한 bis compounds처럼 殺蟲能을 가졌으리라고 豫測되므로 2,4,5-trichloro phenol과 chloral hydrate를 縮合하여 生成物의 構造를 檢討하였던바 5,6,8-trichloro-2,4-di-trichloro methyl-benzo-1,3-dioxane임을 確認하였으며 反應條件과 [귤응애] 및 [복숭아 흑진딧물]에 대한 殺蟲能을 檢討하였다.

• 한국환경농학회지
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• 제29권2호
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• pp.159-164
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• 2010

Imidacloprid is a systemic insecticide which has been used widely in various crops to control insects. In the present study, we demonstrated that pre-treatment of imidacloprid significantly induced tolerance to drought in plant. Relative water content, chlorophyll levels, and recovery rate upon rehydration after drought stress in tobacco plants pre-treated with imidacloprid were higher levels than the control plants. Induced drought tolerance by imidacloprid treatments in red pepper was also demonstrated by measurement of recovery rate and fresh weight upon drought stress. Taken together, our results suggest that imidacloprid, in addition to exerting direct insecticidal activity, may also protect plants by induced tolerance to drought in plant.

• 농약과학회지
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• 제6권2호
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• pp.105-109
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• 2002

Bezoylphenyl urea계 신규 살충제인 1-(2,6-difluorobenzoyl)-3-(3,5-bistrifluoromethyl-2-chlorophenyl) urea (DBI-3204, HW-3204)를 생산하기 위하여 경제적인 합성법을 확립하였다. 특히 3단계 합성공정에 사용하는 용매를 사염화탄소로 단순화 시켰다. 필수적인 중간체인 3,5-bis(trifluorornethyl)-2-chloroaniline을 92%로 선택적으로 합성하였으며, 2,6-difluorobenzoylisocyanate는 95%, DBI-3204는 약 90%의 좋은 수율로 합성하였다.

• 한국응용곤충학회지
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• 제28권1호
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• pp.23-27
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• 1989

Pyrethroid계 살충제인 cypermethrin과 carbamate계 살충제인 pirimicarb를 공시하여 실내 감수성계통 복숭아혹진닷물(Myzus persicae)을 인위적으로 루대도태한 후, 저항성 발달속도와 정도를 조사하고, 이들 저항성 계통의 타살충제에 대한 교차저항성 유무와 그 정도를 검토하였다. 저항성 발달속도는 cypermethrin 20세대 도태계통에서 도태전에 비하여 20.5차 증가하였으나, pirimicarb 20세대 도태계통에서는 3.2배 증가에 그쳐 살충제 종류에 따라 큰 차이를 보였다. Cypermethrin 도태계통은 acephate와 pirimicarb에 대해서 , pirimicarb 도태계통은 acephate와 cypermethrin에 대해서 교차저항성을 나타내었다. 그러나 cypermethrin, pirimicarb 도태계통은 demeton-S-methyl에 대해서 비교우저항성을 나타내었다.

• Molecular & Cellular Toxicology
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• 제3권1호
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• pp.11-18
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• 2007

Mechanisms of insecticide resistance found in insects may include three general categories. Modified behavioral mechanisms can let the insects avoid the exposure to toxic compounds. The second category is physiological mechanisms such as altered penetration, rapid excretion, lower rate transportation, or increased storage of insecticides by insects. The third category relies on biochemical mechanisms including the insensitivity of target sites to insecticides and enhanced detoxification rate by several detoxifying mechanisms. Insecticides metabolism usually results in the formation of more water-soluble and therefore more readily eliminated, and generally less toxic products to the host insects rather than the parent compounds. The representative detoxifying enzymes are general esterases and monooxygenases that catalyze the toxic compounds to be more water-soluble forms and then secondary metabolism is followed by conjugation reactions including those catalyzed by glutathione S-transferases (GSTs). However, a change in the resistant species is not easily determined and the levels of mRNAs do not necessarily predict the levels of the corresponding proteins in a cell. As genomics understands the expression of most of the genes in an organism after being stressed by toxic compounds, proteomics can determine the global protein changes in a cell. In this present review, it is suggested that the environmental proteomic application may be a good approach to understand the biochemical mechanisms of insecticide resistance in insects and to predict metabolomic changes leading to physiological changes of the resistant species.

• Journal of Plant Biology
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• 제25권3호
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• pp.113-121
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• 1982

The effects of 6 biocides on the growth of Chlamydomonas reinhardii in pure culture were studied. For the batch culture assay of biocides, the growth rate in control tubes should be compared with in the test tubes and the effective concentration calculated on the basis of the percent decrease in growth rate at the different toxicant concentration. The concentrations at which 50% decrease in growth rate was observed are $40{\mu}g$/l for butachlor and $350{\mu}g$/l for alachlor in herbicide, $900{\mu}g$/l for phenazine-5-oxide and $3,400{\mu}g$/l for isoprothiolane in fungicide, and $3,330{\mu}g$/l for fenthion and $332,500{\mu}g$/l for trichlorfon in insecticide. The inhibitory effect on the growth of Chlamydomonas reinhardii by the treatment of various biocide concentrations was decreased in order of herbicide>fungicide>insecticide. Chlorophyll and carotenoid content per cell were increased, whereas chlorophyll a/b ratio was hardly affected by biocides. The effects of biocides on pigment content were also decreased in order of herbicide>fungicide>insecticide, which suggested the relationship between the effect of biocides on the pigment content and inhibition of growth rate.

• Asian-Australasian Journal of Animal Sciences
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• 제18권2호
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• pp.197-202
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• 2005

The effects of feeding Brassica vegetable market wastes on intake, body weight changes and pesticide/insecticide residues in products of goats were evaluated in two experiments. In the first experiment (Exp. 1) 16 goats (Bach Thao, 9 to 10 kg, 3 months old, 9 males and 7 females) were fed four diets with leaves either from cabbage (Brassica oleracea var. capitata), cauliflower (Brassica oleracea var. botrytis) or Chinese cabbage (Brassica campestris subsp. pekinensis) with 30% of Para grass. The control group was fed 100% Para grass. All diets contained soybean waste as a supplement and the experiment lasted for 136 days. In the second experiment (Exp. 2) 24 goats (Bach Thao, 12 to 14 kg, all males) were assigned to three treatments in a completely randomised block design based on initial body weight. The goats were fed cabbage waste supplemented with 200 g or 100 g DM (dry matter) of concentrate. Para grass with 100 g DM concentrate supplementation was used as a control group. The experiment lasted for 90 days and at the end of the study, 12 goats were slaughtered for pesticide/insecticide analysis. Due to low DM content (5.3 and 3.7%, respectively) feed intakes of cabbage and Chinese cabbage groups were lower than those of other groups in the experiment. The highest feed intake and body weight gain was obtained when the goats were fed cauliflower (529 g DM/day and 87.5 g/day, respectively). In Exp. 2 total intake of cabbage and concentrate was similar (484 g and 453 g DM/day) whether the goats were fed 100 or 200 g concentrate/day but lower than that of Para grass and concentrate probably due to the low DM content of the cabbage (5.9%). Crude protein intake (79 g to 86 g/day) and body weight gain (70 g to 88 g/day) was not significantly different between treatments. Adding concentrate consequently resulted in higher DM intake than in Exp. 1 but did not result in any higher growth rate. Three of the pesticide/insecticide residues tested were found in cabbage, Alpha-Cypermethrin, Bassa-Fenobucarb and Dimethoate with levels of 0.175, 0.074 and 0.028 mg/kg fresh cabbage respectively. Weight of livers from goats fed cabbage was about 90 g higher than from goats fed Para grass but no pesticide/herbicide residues were found in meat or liver.

• 한국응용곤충학회지
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• 제22권2호
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• pp.98-105
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• 1983

The rapid increase in cases of insect resistance to insecticides indicates that the contribution of present chemical control practices inevitably leads to exhaustion of available insecticide resources against key insect species. Now the problem of insecticide resistance exists worldwide among insects and mites affecting field crops and animals including human beings, ranging from minimal or absent in some developing countries, where use of insecticides has been low, to extremely severe in many developed countries. Since the occurrence of insect resistance to insecticides was firstly recognized in 1908, the increase in recent decades has been almost linear and now the number of species of insects and acarines in which resistant strains have evolved have been increased to a total of 432. Of these, $261(60\%)$ are agricultural importance and $171(40\%)$ of medical/veterinary importance. The phenomenon of insecticide resistance is asserting itself as the greatest challenge to effective chemical control of many important insect pests. Resistance of insects to insecticides has a history of nearly 80 years, but its greatest increase and its strongest impact have occurred during the last 40 years following the discovery and extensive use of synthetic organic insecticides and acaricides. The impact of resistance should be considered not only in terms of greater cost of pest control due to increased dosages and number of applications but also in terms of the ecological disruption of pest-beneficial species density relationships, the loss of investment in the development of the insecticides concerned, and socio-economic disruption in agricultural communities. Despite its grave economic consequences, the phenomenon of insecticide resistance has received surprisingly little attention in Korea. Since the study of insecticides started firstly in 1963, many entomologists have been concerned with this study. According to their results, some of the rice pests and some of the mites on orchard trees, for example, have developed worrisome level of resistance in several areas of this peninsula. With many arthropods, considerable advances in the developed countries have been made in the study of the biochemical and physiological mechanisms of resistance. Progress involves the biochemical characteristics of specific defense mechanisms, their genetics, interactions, and their quantitative and qualitative contribution to resistance. But their studies arc still inadequately known and relatively little have been contributed in terms of unique schemes of population management in achieving satisfactory pest control. It is apparent that there is no easy solution to resistance as a general phenomenon. For future challenging to effective control of insect pests which are resistant to the insecticides concerned, new insecticide groups with distinctly novel mode of action are urgently needed. It is clear, however, that a great understanding of the factors which govern the intensity of selection of field population for resistance could lead to far more permanently successive use of chemicals within the framework of integrated pest management than heretofore practiced.