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Hong Geun Kim,David C. Margolies,Yoonseong Park 한국응용곤충학회 2016 한국응용곤충학회 학술대회논문집 Vol.2016 No.04
Temperature as a major environmental factor affects on organisms on various levels including molecular, physiological, behavioral and ecological levels. Transient receptor potential channels (TRPs) are a cation channel family. Among them, thermo-TRPs are known as a thermosensor. The potential role of thermo-TRPs have been identified in the fruit fly, Drosophila melanogaster, in thermotaxis and in thermal acclimation. With RNA interference (RNAi) technique, the role of thermo-TRPs in the red flour beetle, Tribolium castaneum, was identified by measuring thermal avoidance behavior in a behavioral assay. RNAi of trpA1 reduced high temperature avoidance, 39 and 42 °C. Moreover, the effects of RNAi of thermo-TRPs on the heat-induced knockout and the death after short exposure to high temperature was measured after one minute exposure at 52 °C, either with or without a 42 °C 10-minute thermal acclimation period. Even though it was relatively short time exposure to high temperature, it was enough to induce high temperature thermal acclimation. RNAi of trpA1 made faster knockout at 52 °C. With RNAi of painless, the recovery rates from heat-induced knockout after thermal acclimation. RNAi of pyrexia reduced long-term total survivorship without thermal acclimation.
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Ling Lan Cheng,James R. Nechols,David C. Margolies,James F. Campbell,Ping Shih Yang,Chien Chung Chen,Chiu Tung Lu 한국응용곤충학회 2012 Journal of Asia-Pacific Entomology Vol.15 No.1
Wecompared population suppression of the phytophagous mites, Tetranychus kanzawai Kishida and Panonychus citri (McGregor), on papaya by second instar larvae of the green lacewing, Mallada basalis (Walker), at various predator:prey release ratios in the laboratory. Initially, we presented M. basalis with mixed age classes of each mite species separately at a density of approximately 30 mites per seedling. After 3 days, predator:prey ratios of 1:30, 1:15, and 1:10 resulted in reductions of T. kanzawai of 66.8%, 82.6%, and 83.3%, respectively, and reductions of P. citri of 41.8%, 75.5%, and 77.2%, respectively. Predation on individual age classes was approximately equal in both species, reinforcing previous findings that this predator does not show a preference among age classes. We next presented M. basalis with mixed populations of the two mite species in which there were equal numbers of each species and the density was as in the single species tests. Total mite reduction with both mite species present was 48.5%, 71.9%, and 74.5% at ratios of 1:30, 1:15, and 1:10, respectively; T. kanzawai was reduced by 50.5%, 77.4%, and 79.5%, respectively, and P. citriwas reduced by 44.1%, 60.3%, and 63.2%, respectively. This study suggests that M. basalis has the potential for substantially suppressing populations of both T. kanzawai and P. citri on papaya at a predator:prey ratio of 1:15 or greater. However, evaluation under realistic agricultural settings is needed before specific recommendations about predator release rates can be made.
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