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http://dx.doi.org/10.11626/KJEB.2018.36.4.517

Occurrence of Thrips in Greenhouse Cucumber and Insecticidal Activity of Five Local Western Flower Thrips Populations  

Jeong, In-Hong (Division of Crop Protection, National Institute of Agricultural Science, RDA)
Park, Bueyong (Division of Crop Protection, National Institute of Agricultural Science, RDA)
Park, Se-Keun (Division of Crop Protection, National Institute of Agricultural Science, RDA)
Lee, Sang-Bum (Division of Crop Protection, National Institute of Agricultural Science, RDA)
Jeon, Sung-Wook (Division of Crop Protection, National Institute of Agricultural Science, RDA)
Publication Information
Korean Journal of Environmental Biology / v.36, no.4, 2018 , pp. 517-524 More about this Journal
Abstract
The purpose of this study was to investigate the density of thrips, and insecticidal resistance for effective control of Western flower thrips in greenhouse. The presence and density of the thrips was investigated using yellow colored-sticky trap in a cucumber field from May to August in Cheon-an. The results of the investigation revealed the existence of the following thrips species; Frankliniella occidentalis, F. intonsa, Thrips palmi, T. tabaci, Scirtothrips dorsalis, Microcephalothrips abdominalis, and T. nigropilosus. The predominant pest was found to be the western flower thrips. To survey the western flower thrips insecticidal resistance, we established the discriminating concentration (DC), recommended concentration (RC) and $2{\times}$recommended concentration ($2{\times}RC$) of nine insecticides; Emamectin benzoate EC, spinetoram SC, Chlorfenapyr EC, Spinosad SC, Cyantraniliprole EC, Acetamiprid WP, Dinotefuran WG, thiacloprid SC and thiamethoxam SC. The bioassay of about five local populations was conducted using the leaf-dipping method. In all local populations, insecticidal resistance in western flower thrips had not developed in emamectin benzoate EC (RC, $10.8{\mu}L\;L^{-1}$), chlorfenapyr EC (RC, $50.0{\mu}L\;L^{-1}$), spinetoram SC (RC, $25.0mg\;L^{-1}$), and spinosad SC (RC, $50.0mg\;L^{-1}$). However, insecticidal resistance in RC was found to have developed in cyantraniliprole EC (RC, $50.0{\mu}L\;L^{-1}$) and four insecticides of neonicotinoid type. Insecticidal activity of 95% or more was observed in each population when cyantraniliprole EC tested in $2{\times}RC$. However, the neonicotinoid types showed different insecticidal activity in $2{\times}RC$.
Keywords
Frankliniella occidentalis; greenhouse; cucumber; occurrence; insecticidal resistance;
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  • Reference
1 Ananthakrishnan TN. 1993. Bionomics of thrips. Ann. Rev. Entomol. 38:71-92.
2 Bass C, I Denholm, MS Williamson and R Nauen. 2015. The global status of insect resistance to neonicotinoid insecticides. Pest. Biochem. Physiol. 121:78-87.
3 Boonham N, P Smith, K Walsh, K Tame, J Morris, N Spence, J Bennison and I Barker. 2002. The detection of tomato spotted wilt virus (TSWV) in individual thrips using realtime fluorescent RT-PCR (TaMan). J. Virol. Methods 101:37-48.
4 Cho JR, YJ Kim, YJ Ahn, JG You and JW Lee. 1998. Monitoring of acaricide resistance of two-spotted mite, Teranychus urticae Koch in wild type. Korean J. Appl. Entomol. 34:40-45.
5 Cho MR, HY Jeon and SY Na. 2000. Occurrence of Frankliniella occidentalis and Tetranychus urticae in rose greenhouse and effectiveness of different control methods. J. Bio-Enviro. Control 9:179-184.
6 Choi BY, SW Lee, HM Park, JK Yoo, SG Kim and CH Baik. 2005. Monitoring on insecticide resistance of major insect pests in plastic house. Korean J. Pestic. Sci. 4:380-390.
7 Chung BK, SW Kang and JH Kwon. 2000. Chemical control system of Frankliniella occidentalis (Thysanoptera: Thripidae) in greenhouse eggplant. J. Asia Pac. Entomol. 3:1-9.
8 Demirozer O, K Tyler-julian, J Funderburk, N Leppla and S Reitz. 2012. Frankliniella occidentalis (Pergande) integrated pest management programs for fruiting vegetables in Florida. Pest Manag. Sci. 68:1537-1545.
9 Denoyes B and D Bordat. 1986. A new pest of vegetable crops in Martinique: Thrips palmi (Karny). Agro. Trop. 41:167-169.
10 Helyer NL and PJ Brobyn. 1992. Chemical control of western flower thrips (Frankliniella occidentalis Pergande). Ann. Appl. Biol. 121:219-231.
11 Huseth AS, TM Chappell, K Langdon, SC Morsello, S Martin, JK Greene, A Herbert, AL Jacobson, FP Reay-Jones, T Reed, DD Reisig, PM Roberts, R Smith and GG Kennedy. 2016. Frankliniella fusca resistance to neonicotinoid insecticides: an emerging challenge for cotton pest management in the eastern United States. Pest Manag. Sci. 72:1934-1945.   DOI
12 Immaraju JA. TD Paine, JA Bethke, KL Robb and JP Newman. 1992. Western flower thrips (Thysanoptera: Thripidaae) resistance to insecticides in coastal California greenhouse. J. Econ. Entomol. 85:9-14.
13 Jeon SW, BY Park, SK Park, SG Lee, HJ Ryu, SB Lee and IH Jeong. 2017. Establishment of discriminating concentration based assessment for insecticide resistance monitoring of palm thrips. Korean J. Environ. Biol. 35:557-567.
14 Kim DH, MR Choi, CY Yang, TJ Kang, HH Kim and SW Jeon. 2014. Occurrence and damage by Thrips on greenhouse-cultivated Fig. Korean J. Appl. Entomol. 53:485-490.
15 Lee GS, JH Lee, SH Kang and KS Woo. 2001. Thrips species (Thysanoptera: Thripidae) in winter season and their vernal activities on Jeju island, Koera. J. Asia Pac. Entomol. 4:115-122.
16 Morishita M. 1993. Toxicity and synergism of some insecticides against larvae of Thrips palmi Karny (Thysanoptera: Thripidae). Jpn. J. Appl. Entomol. Zool. 37:153-157.
17 Lee YS, HA Lee, HJ Lee, SS Hong, CS Kang, YS Choi and HH Kim. 2017. Insecticide susceptibility of western flower thrip, Frankliniella occidentalis (Thysanoptera: Thripidae) on horticultural crops in Gyeonggi area. Korean J. Appl. Entomol. 56:179-186.
18 Lee YS, JY Kim, SS Hong, J Park and HH Park. 2012. Occurrence of sweet potato whitefly, Bemisia tabaci (Hemiptera; Aleyrdodidae) and its response to insecticide in Gyeonggi area. Korean J. Appl. Entomol. 51:377-382.
19 Li DG, XY Shang, R Stuart, N Ralf, ZR Lei and SH Lee. 2016. Field resistance to sponosad in western flower thrips Frankliniella occidentalis (Thysanoptera: Thripidae). J. Integr. Agric. 15:2803-2808.
20 Paramasivam M and C Selvi. 2017. Laboratory bioassay methods to assess the insecticide toxicity against insect pests-A review. J. Entomol. Zool. Stud. 5:1441-1445.
21 Pelikan J. 1998. Thrips palmi (Thysanoptera) threatens European glasshouse crops. Plant protection-UZPI 34:39-42.
22 Rosenheim JA, SC Welter, W Johnson, RFL Mau and LR Gusukuma-Minuto. 1990. Direct feeding damage on cucumber by mixed-species infestation of Thrips palmi and Frankliniella occidentalis (Thysanoptera, Tripidae). J. Econ. Entomol. 83:1519-1525.   DOI
23 Roush RT and GL Miller. 1986. Considerations for design of insecticide resistance monitoring programs. J. Econ. Entomol. 79:293-298.
24 Stanley BH. 2014. Monitoring resistance. pp. 485-513. In Insect Reistance Management (Ostard DW ed.). Academic Press. Amsterdam.
25 You JS, JI Kim and KH Kim. 2002. Monitoring of insecticidal sensitivity collected western flower thrips, Frankliniella occidentalis (Thysanoptera, Thripidae) in rose agriculture. Korean J. Pestic. Sci. 4:380-390.
26 Wang Y, J Chen, YC Zhu, C Ma, Y Huang and J Shen. 2008. Susceptibility to neonicotinoids and risk of resistance development in the brown planthopper, Nilaparvata lugens (Stal) (Homoptera: Delphacidae). Pest Manag. Sci. 64:1278-1284.
27 Woo KS. 1972. Studies on the thrips (Thysanoptera) unrecorded in Korea. Korean J. Appl. Entomol. 11:45-54.
28 Woo KS, SB Ahn, SH Lee and HW Kwon. 1994. First record of the western flower thrips, Frankliniella occidentalis (Pergande), in Korea. Proceedings of the Autumn meeting of the Korean Soc. Appl. Entomol. p. 127.
29 Yu JS, JI Kim and GH Kim. 2002. Insecticide susceptibilities of rose field-collected population of western flower thrips, Frankliniella occidentalis in Korea. Korean J. Pestic. Sci. 6:80-86.
30 Park HH, JH Lee and KB Uhm. 2007. Economic thresholds western flower thrips (Thysanoptera: Thridae) for unripe red pepper in greenhouse. J. Asia Pac. Entomol. 10:45-53.