Affiliation:
1. Agriculture and Agri-Food Canada,Pacific Agri-Food Research Centre,6947 Highway 7,P.O. Box 1000,Agassiz,British Columbia,Canada V0M 1A0
Abstract
Larvae of the dusky wireworm, Agriotes obscurus, and the Pacific Coast wireworm, Limonius canus, were exposed to germinated, insecticide-treated wheat seeds in a soil-filled bioassay in 2005 and 2006. Position in the bioassay and contact and/or repellence behaviour towards the seeds were recorded every 5 min for 3 or 5 h. Wireworm health was recorded for 70 or 126 d after exposure. Seeds were treated with the fungicides Dividend XLRTA (difenoconazole, mefenoxam) or Raxil MD (tebuconazole, metalaxyl), and/or the insecticides Vitavax Dual (lindane), Poncho 600F (clothianidin), Cruiser 350FS (thiamethoxam), Admire 240FS (imidacloprid), Gaucho 480FL (imidacloprid), Tefluthrin 20CS (tefluthrin), or Tefluthrin-Cruiser combinations. Most wireworms (> 80%) came into contact with the seeds in all treatments. Wireworms generally remained in contact throughout the observation period in the control treatments (Dividend, Raxil, untreated seeds). Unless moribund, wireworms were repelled after brief (< 20 min) contact in all Tefluthrin treatments. Most wireworms recovered from contact-induced morbidity within 21 d and did not relapse, except L. canus exposed to Cruiser and some A. obscurus exposed to Gaucho and Admire. Wireworm mortality was low (< 50%) in all treatments except L. canus exposed to Cruiser at 15 and 30 g a.i. 100 kg-1 seed (60 and 75%, respectively). Mortality was significantly less important when L. canus larvae were exposed to Tefluthrin-Cruiser combinations than when exposed to Cruiser alone. We suggest that efficacy assessments of insecticides for wireworm control require direct observation of their behaviour and long-term post-exposure health assessments, and discuss the impact of repellence and/or morbidity elicited by insecticides on wireworm control in the field.
Reference35 articles.
1. Andersch, W., and M. Schwarz. 2003. Clothianidin seed treatment (Poncho®)–the new technology for control of rootworms and secondary pests in US-corn production. Pflanzenschutz-Nachr. Bayer 56 : 147-172.
2. Belcher, D.W., and F.D. Tenne. 1987. Elateridae larvae and control obtained with terbufos and phorate in first-year cornfields in Indiana. J. Kansas Entomol. Soc. 60 : 127-132.
3. Bernays, E.A., and R. Chapman. 1987. Evolution of deterrent responses. Pages 159-174 in R. Chapman, E.A. Bernays and J.G. Stoffolano (eds.), Perspectives in Chemoreception and Behavior. Springer-Verlag, New York, USA.
4. Chaton, P.F., G. Lempérière, M. Tissut, and P. Ravanel. 2008. Biological traits and feeding capacity of Agriotes larvae (Coleoptera: Elateridae): A trial of seed coating to control larval populations with the insecticide fipronil. Pestic. Biochem. Physiol. 90 : 97-105.
5. Dethier, V.G., L. Barton Browne, and C.N. Smith. 1960. The designation of chemicals in terms of the responses they elicit from insects. J. Econ. Entomol. 53 : 134-136.
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