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http://dx.doi.org/10.3839/jabc.2018.041

Insecticidal activities and repellent effects of methylcinnamate and essential oils from Alpinia galangal against nymphs and adults of Metcalfa pruinosa  

Park, Bueyong (Crop Protection Division, Department of Agri-Food Safety, National Institute of Agricultural Sciences)
Lee, Sang-Ku (Crop Protection Division, Department of Agri-Food Safety, National Institute of Agricultural Sciences)
Jeong, In-Hong (Crop Protection Division, Department of Agri-Food Safety, National Institute of Agricultural Sciences)
Park, Se-Keun (Crop Protection Division, Department of Agri-Food Safety, National Institute of Agricultural Sciences)
Lee, Sang-Bum (Crop Protection Division, Department of Agri-Food Safety, National Institute of Agricultural Sciences)
Publication Information
Journal of Applied Biological Chemistry / v.61, no.3, 2018 , pp. 291-295 More about this Journal
Abstract
Metcalfa pruinosa is a pest causing widespread problems to many crops in Korea. This pest infects fruit crops especially, persimmon and grapes. We tested the possibility of M. pruinosa management using essential oils of Alpina galangal and methylcinnamate which were extracted from A. galangal by steam distillation method. The use of essential oil showed a mortality rate of 10.0 and 23.3% for adults and nymphs, respectively. While the use of methylcinnamate resulted to a mortality rate of 40.0% in adults and 36.6% in nymphs. For its repellent effect, it showed an avoidance rate of 50.0 and 63.3% for adult and nymph respectively. Considering these two results, the extract of A. galangal are shown to have some synergic effect for pest control. The result of this study showed a possibility of M. pruinosa control using essential oil and methylcinnamate from A. galangal.
Keywords
Alpina galangal; Insecticidal effect; Metcalfa pruinosa; Methylcinnamate; Repellent effect;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 RDA (2016) Pests Report. Internal Resources, Jeonju
2 Lee H, Wilson SW (2010) First report of the Nearctic flatid planthopper Metcalfa pruinosa (Say) in the Republic of Korea (Hemiptera: Fulgoroidea). Entomological News 121: 506-513   DOI
3 Kim DE, Kil J (2014) Occurrence and host plant of Metcalfa pruinosa (Say) (Hemiptera: Flatidae) in Korea. J Environ Biol 23(8): 1385-1394
4 Wikipedia Internet access (at http://en.m.wikipedia.org, Citrus flatid planthopper, Metacalfa pruinosa (Say) (Insecta: Hemiptera: Flatidae) Behavior and ecological impart
5 Strauss G (2010) Pest risk anlysis of Metcalfa pruinosa in Austria. J Pest Sci 83(4): 381-390   DOI
6 Ahn KS, Lee KS, Lee KH, Song MK, Lim SC, Kim GH (2011) Susceptibility of North American planthopper, Metcalfa pruinosa to commercially registered insecticides in Korea. Korean J Pestic Sci 15(3): 329-334
7 Kim JR, Ji CW, Seo BY, Park CG, Lee KS, Lee SG (2013) Toxicity of Plant Essential oils and Their Spray Formulations against the Citrus Flatid Planthopper Metcalfa pruinosa Say (Hemiptera: Flatidae). Korean J Pestic Sci 17(4): 419-427   DOI
8 Park B, Lee SB, Lee SG, Park SK, Jeong IH, Jun IS (2016) A case study on improvement of Pest control research in Rural Development Institutions and its implications. Korean J Organic Agric 24(4): 609-625   DOI
9 Schmutter H (1980) Natural pesticides from the neem tree. Proc 1st Int Neem Conference. pp. 33-259
10 Wink M (1993) Production and application of phytochemicals from an agricultural perspective. pp. 171-213. In Phytochemistry and Agruculture. vol. 34. Clarendon, Oxford, UK
11 Lindquist BK, Adams AJ, Hall FR, Adams IHH (1990) Laboratory and greenhouse valuations of Margosan-O against bifenthrin-resistant and susceptible greenhouse whiteflies, Trialeurodes vaporarium (Homoptera: Aleyrodie). U.S. Dept. Agric., Neem Workshop, USDA-ARS 86, Beltsville, MD. pp. 91-99
12 Isman MB (2000) Plant essential oils for pest and disease management Crop Prot 19: 603-608   DOI
13 Wikipedia Internet access (at http://en.m.wikipedia.org) Differentiation and uses
14 Bainard LD, Isman MB (2006) Phytotoxicity of clove oil and tys primary constituent eugenol and role of leaf epiculticular wax in the susceptibility to these essential oils. Weed Sci 54(5): 833-837   DOI
15 Kim YK, Lee JJ, Choi MY (2008) Isecticidal Activities and Repellent Effects of Plant Extracts against the Brown Planthopper (Nilaparvata lugens Stal). Korean J Appl Entomol 47(1): 65-74   DOI
16 Lee SK, Jeon SW, Jeong IH, Park SK, Lee SB, Lee HS, Park B (2018) Insecticidal activity of Valeriana fauriei oils extracted by three different mothods against Ricania shantungensis. J Appl Biol Chem 61(1) 47-50   DOI
17 Saxena RC (1989) Insecticides from neem. In: Insecticides of Plant Origin. ACS Symp. Ser. No. 387. Am Chem Sco Washington, D. C. pp. 110-135
18 Lee HW, Lee SG, Lee HS (2016) Active component isolated from Eugenia caryophyllata leaves and its structural analogues show insecticidal properties against Pochazia shantungensis. J Appl Biol Chem 59(1): 1-6   DOI
19 Nam TH, Jeon HJ, Kim K, Kim HM, Kim YC, Lee SE (2018) Ecotoxicities of emulsifiable concentrate and granules of cinnamon (Cinnamomum zeylanicum) essential oil against Cyprinus carpio and Danio rerio. J Appl Biol Chem 61(2): 151-155   DOI
20 Jeon YJ, Choi BR, Lee HS (2016) Insecticidal toxicities of essential oils extracted seven against Ricania sp. Nymphs and adults. J Appl Biol Chem 59(3): 243-245   DOI