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Monitoring Tribolium castaneum (Herbst) in pilot-scale warehouses treated with β-cyfluthrin: are residual insecticides and trapping compatible?

Published online by Cambridge University Press:  24 October 2008

M.D. Toews*
Affiliation:
USDA-ARS Grain Marketing and Production Research Center, 1515 College Ave, Manhattan, KS, 66502-2736, USA
F.H. Arthur
Affiliation:
USDA-ARS Grain Marketing and Production Research Center, 1515 College Ave, Manhattan, KS, 66502-2736, USA
J.F. Campbell
Affiliation:
USDA-ARS Grain Marketing and Production Research Center, 1515 College Ave, Manhattan, KS, 66502-2736, USA
*
*Author for correspondence Fax: +(229) 386-3086 E-mail: [email protected]

Abstract

Integrated pest management strategies for cereal processing facilities often include both pheromone-baited pitfall traps and crack and crevice applications of a residual insecticide such as the pyrethroid cyfluthrin. In replicated pilot-scale warehouses, a 15-week-long experiment was conducted comparing population trends suggested by insect captures in pheromone-baited traps to direct estimates obtained by sampling the food patches in untreated and cyfluthrin-treated warehouses. Warehouses were treated, provisioned with food patches and then infested with all life stages of Tribolium castaneum (Herbst). Food patches, both those initially infested and additional uninfested, were surrounded by cyfluthrin bands to evaluate if insects would cross the bands. Results show that insect captures correlated with population trends determined by direct product samples in the untreated warehouses, but not the cyfluthrin-treated warehouses. However, dead insects recovered from the floor correlated with the insect densities observed with direct samples in the cyfluthrin-treated warehouses. Initially, uninfested food patches were exploited immediately and after six weeks harbored similar infestation densities to the initially infested food patches. These data show that pest management professionals relying on insect captures in pheromone-baited traps in cyfluthrin-treated structures could be deceived into believing that a residual insecticide application was suppressing population growth, when the population was actually increasing at the same rate as an untreated population.

Type
Research Paper
Copyright
Copyright © 2008 Cambridge University Press

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References

Arbogast, R.T., Kendra, P.E., Mankin, R.W. & McGovern, J.E. (2000) Monitoring insect pest in retail stores by trapping and spatial analysis. Journal of Economic Entomology 93, 15311542.CrossRefGoogle ScholarPubMed
Arbogast, R.T., Kendra, P.E., Mankin, R.W. & McDonald, R.C. (2002) Insect infestation of a botanicals warehouse in north-central Florida. Journal of Stored Product Research 38, 349363.CrossRefGoogle Scholar
Arbogast, R.T., Kendra, P.E. & Chini, S.R. (2003) Lasioderma serricorne (Coleoptera: Anobiidae): spatial relationship between trap catch and distance from an infested product. Florida Entomologist 86, 437444.CrossRefGoogle Scholar
Arbogast, R.T., Chini, S.R. & McGovern, J.E. (2005) Plodia interpunctella (Lepidoptera: Pyralidae: spatial relationship between trap catch and distance from a source of emerging adults. Journal of Economical Entomology 98, 326333.CrossRefGoogle ScholarPubMed
Arthur, F.H. (1994a) Residual efficacy of cyfluthrin emulsifiable concentrate and wettable powder formulations on porous concrete and on concrete sealed with commercial products prior to insecticide application. Journal of Stored Product Research 30, 7986.CrossRefGoogle Scholar
Arthur, F.H. (1994b) Degradation of cyfluthrin EC and WP residues on painted steel: effects of commercial sealants on residual persistence. Journal of Stored Product Research 30, 163169.CrossRefGoogle Scholar
Arthur, F.H. (1998) Residual studies with cyfluthrin wettable powder: toxicity toward red flour beetles (Coleoptera: Tenebrionidae) exposed for short intervals on treated concrete. Journal of Economic Entomology 91, 309319.CrossRefGoogle Scholar
Arthur, F.H. (1999a) Survival of red flour beetles (Coleoptera: Tenebrionidae) on concrete partially treated with cyfluthrin. Journal of Economic Entomology 92, 981987.CrossRefGoogle Scholar
Arthur, F.H. (1999b) Effect of temperature on residual toxicity of cyfluthrin wettable powder. Journal of Economic Entomology 92, 695699.CrossRefGoogle Scholar
Arthur, F.H. (2000) Impact of accumulated food on survival of Tribolium castaneum on concrete treated with cyfluthrin wettable powder. Journal of Stored Product Research 36, 1523.CrossRefGoogle Scholar
Athanassiou, C.G. & Buchelos, C.T. (2001) Detection of stored-wheat beetle species and estimation of population density using unbaited probe traps and grain trier samples. Entomologia Experimentalis et Applicata 98, 6798.CrossRefGoogle Scholar
Barson, G. (1991) Laboratory assessment of the residual toxicity of commercial formulations of insecticides to adult Oryzaephilus surinamensis (Coleoptera: Silvanidae) exposed for short time intervals. Journal of Stored Product Research 27, 205211.CrossRefGoogle Scholar
Baur, F.J. (1984) Introductory background information. pp. 114in Baur, F.J.(Ed.) Insect Management for Food Storage and Processing. St Paul, MN, USA, American Association of Cereal Chemists.Google Scholar
Braness, G.A., Coster, D.C. & Bennett, G.W. (1991) Logistic models describing effects of temperature and humidity on residual effectiveness of chlorpyrifos and cyfluthrin formulations against German cockroaches (Dictyoptera: Blatellidae). Journal of Economic Entomology 84, 17461752.CrossRefGoogle Scholar
Brenner, R.J., Focks, D.A., Arbogast, R.T., Weaver, D.K. & Shuman, D. (1998) Practical use of spatial analyses in precision targeting for integrated pest management. American Entomologist 44, 79101.CrossRefGoogle Scholar
Campbell, J.F. & Arbogast, R.T. (2004) Stored-product insects in a flour mill: population dynamics and response to fumigation treatments. Entomologia Experimentalis et Applicata 112, 217225.CrossRefGoogle Scholar
Campbell, J.F. & Hagstrum, D.W. (2002) Patch exploitation by Tribolium castaneum: movement patterns, distribution, and oviposition. Journal of stored Products Research 38, 5568.CrossRefGoogle Scholar
Campbell, J.F. & Runnion, C. (2003) Patch exploitation by female red flour beetles, Tribolium castaneum. Journal of Insect Science 3, 8 pp. Available online at http://www.insectscience.org/3.20/.Google ScholarPubMed
Campbell, J.F., Mullen, M.A. & Dowdy, A.K. (2002) Monitoring stored-product pests in food processing plants with pheromone trapping, contour mapping, and mark-recapture. Journal of Economic Entomology 95, 10891101.CrossRefGoogle ScholarPubMed
Carvalho, M.O., Passos de Carvalho, J., Torres, L.M. & Mexia, A. (2006) Developing sequential sampling plans for classifying Lasioderma serricorne (F.) (Coleoptera, Anobiidae) status in a cigarette factory. Journal of Stored Products Research 42, 4250.CrossRefGoogle Scholar
Cox, P.D., Wakefield, M.E. & Jacob, T.A. (2007) The effects of temperature on flight initiation in a range of moths, beetles and parasitoids associated with stored products. Journal of Stored Products Research 43, 111117.CrossRefGoogle Scholar
Hinks, C.F. (1985) The influence of temperature on the efficacy of three pyrethroids insecticides against the grasshopper, Melanoplus sanguinipes (Fab.) (Orthoptera: Acrididae), under laboratory conditions. Canadian Entomologist 117, 10071012.CrossRefGoogle Scholar
Johnson, D.L. (1990) Influence of temperature on toxicity of two pyrethroids to grasshoppers (Orthoptera: Acrididae). Journal of Economic Entomology 83, 366373.CrossRefGoogle Scholar
Littell, R.C., Stroup, W.W. & Freund, R.J. (2002) SAS® for linear models, 4th edn.Cary, NC, USA, SAS Institute Inc.Google Scholar
Pinniger, D.B. (1974) A laboratory simulation of residual population of stored product pests and an assessment of their susceptibility to a contact insecticide. Journal of Stored Product Research 10, 217223.CrossRefGoogle Scholar
Rees, D. (2004) Insects of Stored Products. 181 pp. Collingwood, VIC, Australia, CSIRO Publishing.CrossRefGoogle Scholar
Roesli, R., Subramanyam, Bh., Campbell, J.F. & Kemp, K. (2003a) Impact of selected IPM practices on insect populations in retail pet stores. pp. 410419in Credland, P.F., Armitage, D.M., Bell, C.H., Cogan, P.M. & Highley, E. (Eds) Advances in Stored Product Protection. Proceedings of the 8th International Working Conference on Stored Product Protection. 2226 July 2002, York, UK. Wallingford, Oxon, UK, CAB International.Google Scholar
Roesli, R., Subramanyam, Bh., Campbell, J.F. & Kemp, K. (2003b) Stored-product insects associated with a retail pet store chain in Kansas. Journal of Economic Entomology 96, 19581966.CrossRefGoogle ScholarPubMed
Rust, M.K., Haagsma, K. & Reierson, A. (1996) Barrier sprays to control argentine ants (hyenoptera: Formicicdae). Journal of Economic Entomology 89, 134137.CrossRefGoogle Scholar
SAS Institute (2003) SAS/STAT User's Guide, Ver. 9.1, Cary, NC, USA, SAS Institute Inc.Google Scholar
Scharf, M.E., Ratliff, C.R. & Bennett, G.W. (2004) Impacts of residual barriers on perimeter-invading ants, with particular reference to odorous house ant, Tapinoma sessile. Journal of Economic Entomology 97, 601605.CrossRefGoogle ScholarPubMed
Sinha, R.N. (1966) Development and morality of Tribolium castaneum and T. confusum (Coleoptera: Tenebrionidae) on seed-borne fungi. Annals of the Entomological Society of America 59, 192201.CrossRefGoogle Scholar
Subramanyam, Bh. & Harein, P.K. (1990) Accuracies and sample sizes associated with estimating densities of adult beetles (Coleoptera) caught in probe traps in stored barley. Journal of Economic Entomology 83, 11021109.CrossRefGoogle Scholar
Subramanyam, Bh., Hagstrum, D.W., Meagher, R.L., Burkness, E.C., Hutchinson, W.D. & Naranjo, S.E. (1997) Development and evaluation of sequential sampling plans for Cryptolestes ferrugineus (Stephens) (Coleoptera: Cucujidae) infesting farm-stored wheat. Journal of Stored Products Research 33, 321329.CrossRefGoogle Scholar
Toews, M.D., Subramanyam, Bh. & Roesli, R. (2002) Development and validation of sequential sampling plans for Sitophilus species associated with pet specialty stores. pp. 115120in Credland, P.F., Armitage, D.M., Bell, C.H., Cogan, P.M. & Highley, E. (Eds) Advances in Stored Product Protection. Proceedings of the 8th International Working Conference on Stored Product Protection. 2226 July 2002, York, UK. Wallingford, Oxon, UK, CAB International.Google Scholar
Toews, M.D., Arthur, F.H. & Campbell, J.F. (2005a) Role of food and structural complexity on capture of Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae) in simulated warehouses. Environmental Entomology 34, 164169.CrossRefGoogle Scholar
Toews, M.D., Campbell, J.F., Arthur, F.H. & West, M. (2005b) Monitoring Tribolium castaneum (Coleoptera: Tenebrionidae) in pilot-scale warehouses treated with residual applications of (S)-hydroprene and cyfluthrin. Journal of Economic Entomology 98, 13911398.CrossRefGoogle ScholarPubMed
Toews, M.D., Campbell, J.F. & Arthur, F.H. (2006a) Temporal dynamics and response to fogging or fumigation of stored-product Coleoptera in a grain processing facility. Journal of Stored Products Research 42, 480498.CrossRefGoogle Scholar
Toews, M.D., Campbell, J.F., Arthur, F.H. & Ramaswamy, S.B. (2006b) Outdoor flight activity and immigration of Rhyzopertha dominica into seed wheat warehouses. Entomologia Experimentalis et Applicata 121, 7385.CrossRefGoogle Scholar
Trematerra, P., Gentile, P., Brunetti, A., Collins, L.E. & Chambers, J. (2007) Spatio-temporal analysis of trap catches of Tribolium confusum du Val in a semolina-mill, with a comparison of female and male distributions. Journal of Stored Products Research 43, 315322.CrossRefGoogle Scholar
Wadleigh, R.W., Koehler, P.G., Priesler, H.K., Patterson, R.S. & Robertson, J.L. (1991) Effect of temperature on the toxicities of ten pyrethroids to German cockroach (Dictyoptera: Blatellidae). Journal of Economic Entomology 83, 14331436.CrossRefGoogle Scholar
Watters, F.L. (1970) Toxicity to the confused flour beetle of malathion and bromophos on concrete floors. Journal of Economic Entomology 63, 10001001.CrossRefGoogle Scholar
Watters, F.L. (1976) Persistence and uptake in wheat of malathion and bromophos applid on granary surfaces to control the red flour beetle. Journal of Economic Entomology 69, 353356.CrossRefGoogle Scholar
Williams, P., Semple, R.L. & Amos, T.G. (1982) Relative toxicity and persistence of one carbamate and three organophosphate insecticides on concrete, wood and iron surfaces for control o grain insects. General Applied Entomology 14, 3540.Google Scholar
Williams, P., Semple, R.L. & Amos, T.G. (1983) Relative toxicity of three pyrethroid insecticides on concrete, wood, and iron surfaces for the control of grain insets. General Applied Entomology 15, 710.Google Scholar
Yadav, T.D. & Jha, A.N. (1983) Persistence of deltamethrin, cypermethrin and permethrin on storage surfaces. Pesticides 17, 2830.Google Scholar
Zar, J.H. (1984) Biostatistical Analysis. 718 pp. Englewood Cliffs, NJ, USA, Prentice-Hall, Inc.Google Scholar