중금속이 곤충에 미치는 영향을 조사하기 위하여 빨간집모기 (Culex pipiens pallens) 금속용액 (Cu, Cd, Hg, Pb, Zn)에서 사육한 후 50% 치사농도 (LC50) 용화시기, 총 지질함량, 지질조성, 총 단백질 함량변화를 측정하였다. 50% 치사농도 (LC50)는 3령 유충으로 24시간 처리한 Hg 처리군에서 0.45 mg kg-1으로 나타나 다른 금속에 비해 독성이 강한 것으로 나타났고, 용화 시기는 처리군이 대조군 (129시간)에 비해 지연되었으며 Cd가 처리군 중 273시간으로 가장 늦게 용화되었다. 중금속에 노출된 모기시료에서 총 여섯 종류의 지질 band가 분리되었으며, 이 중 5종의 지질이 동정되었다 (phospholipid, cholesterol, fatty acid, triglyceride, cholesterol ester). 모든 처리군의 총 지질함량은 대조군에 비해 감소하였다. 또한, 대조군의 단백질 함량 (0.51 mg ind.-1)이 처리군의 단백질 함량에 비해 높게 나타났으며, 처리군 중 Hg과 Cd을 처리한 유충의 단백질 함량이 매우 낮게 나타났다. 결론적으로 중금속이 처리된 용액에서 사육된 모기유충은 오염된 환경에 의한 먹이섭취의 장애 및 중금속의 독성으로 인해 단백질 함량과 지질의 감소가 일어나 발육이 느려지고 용화시기가 길어지는 것으로 생각되며 이는 중금속에 의한 체내 물질대사의 변화를 의미한다. 이러한 결과는 중금속 오염이 모기의 생존과 성장을 억제시켜 모기 개체군 크기에 영향을 줄 것을 나타내며, 추후 연구를 통해 모기의 생육정도를 이용한 오염도 측정에 활용이 가능할 것으로 기대된다

Insecticide resistance and activation of the metabolic detoxification enzymes of female Culex pipiens pallens by the blood meal were assessed using a micro-application bioassay and micro-plate enzyme activity assays. Four group of Cx. pipiens pallens were used, a susceptible non-engorging group at seven days after emerging, SNE7 Cp; a resistant non-engorging group at seven days after emerging, RNE7 Cp; a resistant engorged group at one day after blood feeding and a resistant engorged group at seven days after blood feeding, REG7 Cp. Insecticide resistance of Cx. pipiens pallans was increased by the blood feeding. Based on LC50 values, SNE7 Cp demonstrated >50 fold of higher susceptibility to all tested insecticides when compared with RNE7 Cp. RNE7 Cp showed higher susceptibility to all tested insecticides than REG1 Cp and REG7 Cp with a relative susceptibility LC50 (SRLC50) of 25.8 to 50.0 and 25.0 to 48.8. In micro-plate enzyme assays, the metabolic detoxification enzyme activity of Cx. pipiens pallans adult females was increased by the blood feeding. Activation of non-specific esterases (EST), glutathione-S-transferase (GST) and mixed function oxidase (MFO) in RNE7 were higher than in SNE7 and the all tested enzymes in REG1 and REG7 demonstrated significantly higher enzyme activation than RNE7, except for activation of GST in REG1. Activation of MFO in REG1 and REG7 were 209.4- and 74.6- fold higher than in REG7, respectively. Non-specific esterases (EST) and glutathione-S-transferase exhibited < 10 fold of higher Rr values. These results may be significant in terms of the criteria that are used to evaluate resistance, because blood fed female mosquitoes may show enhanced expression of the resistance phenotype, possibly allowing for earlier detection of insecticide resistance.

The toxicity of materials derived from the seed of Pongamia pinnata to third instars of insecticide-susceptible Culex pipiens pallens and Aedes aegypti and wild Aedes albopictus was examined using a direct contact bioassay. Results were compared with those of the currently used insecticides fenthion and temephos. The active principles of Pongamia pinnata were identified as the karanjin (1), karanjachromene (2), pongamol (3), pongarotene (4), oleic acid (5), and palmitic acid (6) by spectroscopic analysis. Based on 24 h LC50 values, karanjin (14.61 and 16.13 mg/L) was the most toxic compound, followed by oleic acid (18.07 and 18.45 mg/L) and karanjachromene (18.74 and 20.57 mg/L). These constituents were less toxic than either fenthion (LC50, 0.0031 and 0.0048 mg/L) or temephos (0.021 and 0.050 mg/L) against Ae. aegypti and Cx. p. pallens. Low toxicity was produced by pongamol (LC50, 23.95 and 25.76 mg/L), pongarotene (25.52 and 37.61 mg/L), and palmitic acid (34.50 and 42.96 mg/L). Against A. alpopictus instars, oleic acid (LC50, 18.79 mg/L) was most toxic. Low toxicity was observed with the other five constituents (LC50, 35.26- 85.61 mg/L). P. pinnata seed-derived active principles, particularly karanjin, karanjachromene, and oleic acid, merits further study as potential mosquito larvicides for the control of mosquito populations in light of global efforts to reduce the level of highly toxic synthetic larvicides in the aquatic environment.

The toxicity of imperatorin (1) and osthol (2) identified in Cnidium monnieri seed and four structurally related compounds to third instar larvae of insecticidesusceptible (KS-CP strain) and field-collected (DJ-CP colony) of Culex pipiens pallens was examined. Results were compared with those of to conventional mosquito larvicide, fenitrothion and temephos. Based on 24-h LC50 values, imperatorin was 1.9, 3.7, 4.2, 12.4, and 15.1 times more toxic than isopimpinellin, isoimperatorin, osthole, xanthotoxin, and bergapten against KS-CP larvae, respectively. Overall, these compounds were less toxic than either fenitrothion or temephos. However, these compounds did not differ in toxicity against larvae from the two Culex strains, even though the DJ-CP larvae exhibited high levels of resistance α-cypermethrin, deltamethrin, chlorpyrifos, fenthion, and chlorfenapyr (resistance ratio, 94-1179). This finding indicates that the isolated compounds and the pyrethroid, organophosphorus, and pyrrole insecticides do not share a common mode of action or elicit cross-resistance.

The toxicity of materials derived from dried fruit of Cnidium monnieri against early third instar larvae of Culex pipiens pallens was examined using direct contact mortality bioassay. Results were compared with those of currently used mosquito larvicide, temephos. The bioactive principle was identified as xanthotoxol by spectroscopic analysis. As judged by 24 h LD50 value, xanthotoxol was highly effective (4.40 ppm), although this compound was less toxic than temephos (0.16 ppm). C. monnieri fruit-derived materials, particularly xanthotoxol, merit further study as potential mosquito larvicides for protection from humans and domestic animals from vector-borne diseases and nuisance caused by mosquitoes.

The larvicidal activity of materials from Ostericum koreanum (Apiaceae) root against late 3rd or early 4th instar larvae of Aedes aegypti and Culex pipiens pallens was examined using standard WHO technique under laboratory conditions. Results were compared with those of temephos. The biologically active constituents of O. koreanum root were characterized as four coumarines; isoimperatorin (I), osthol (II), oxypeucedanin (III) and imperatorin (IV) by spectroscopic analysis, including EI-MS, LC-MS, 1H NMR and 13C NMR spectroscopy. On the basis of 24-hr LC50 values, osthol among these four coumarines was the most toxic against Ae. aegypti (1.97 ppm) and Cx. pipiens pallens (1.87 ppm) larvae, but its activity was less than temephos (0.0047 and 0.013 ppm, respectively). LC50 values of isoimperatorin, oxypeucedanin and imperatorin derived from O. koreanum root against Ae. aegypti larvae were 2.46, 6.92 and 2.17 ppm, and against Cx. pipiens pallens larvae, were 1.99, 5.04 and 3.68 ppm. The results indicate that both materials and coumarines from O. koreanum root have potential to be used for mosquito control.

The toxicity of Asarum heterotropoides root steam distillate compounds to third instar larvae of Culex pipiens pallens, Aedes aegypti, and Ochlerotatus togoi (formerly Aedes togoi) was examined using a direct contact mortality bioassay. Results were compared with those following the treatment with fenthion and temephos. A. heterotropoides root steam distillate exhibited good larvicidal activity (21.07-27.64 ppm), based on LC50 values. Potent activity was produced by safrole (LC50, 8.22-16.10 ppm), terpinolene (11.85-15.32 ppm), -terpinene (12.64-17.11 ppm), (–)-β-pinene (12.87-18.03 ppm), (+)-limonene (13.26-24.47 ppm), 3-carene (13.83-19.19 ppm), and α-phellandrene (13.84-23.08 ppm), although the larvicidal activity of these compounds was less toxic than either fenthion (LC50, 0.023-0.029) or temephos (0.016-0.020). A. heterotropoides root steam distillate and its constituents described merit further study as potential mosquito larvicides for protection from humans and domestic animals from vector-borne diseases and nuisance caused by mosquitoes.

We examined the adulticidal activity of 34 plant essential oils when they were sprayed on female Culex pipiens pallens adults. At concentrations of 1000 ppm, four oils, namely, cardamon, coriander, rosemary, and sandalwood, had adulticidal activities ranging from 67.8% to 98%. Sandalwood oil had the highest adulticidal activity with an LC50 value of 445ppm. Gas chromatographic (GC) and GC-mass spectrometric analyses revealed that the major constituents of cardamon were 1,8-cineole, α-terpinolene and α-terpinene; those of coriander were γ-terpinene, camphor, linalool and geranyl acetate; those of rosemary were β-pinene, 1,8-cineol, camphor and linalool; and those of sandalwood were α-santalol (69.4%) and β-santalol (15.3%). Both of the major components of sandalwood had the highest adulticidal activity of all the monoterpenes tested. When inhibitors of enzymes known to promote insecticide resistance were mixed with each of the four essential oils, a synergistic effect was only observed when sandalwood was mixed with 100 ppm PBO, which enhanced the adulticidal activity of 500 ppm sandalwood from 41% to 90%.