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Infestation by Bemisia tabaci (Hemiptera: Aleyrodidae) and incidence of whitefly-transmitted viruses after the application of four biorational insecticides in some crops in Egypt

Published online by Cambridge University Press:  27 July 2015

Shaaban Abd-Rabou
Affiliation:
Ministry of Agriculture, Agricultural Research Centre, Plant Protection Research Institute, Dokki, Giza, Egypt
Alvin M. Simmons*
Affiliation:
US Vegetable Laboratory, US Department of Agriculture (USDA), Agricultural Research Service, 2700 Savannah Hwy, Charleston, SC 29414, USA
*
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Abstract

Bemisia tabaci (Gennadius) is a global insect pest that transmits many important plant viruses. A field study was conducted on infestation by B. tabaci and incidence of whitefly-transmitted viruses after the application of selected foliar and seed-treated biorational insecticides in seven vegetable and row crops in Egypt. Three foliar insecticides (Actara, Biofly and Neemix) and a treated check (Actellic) were assayed across three weeks on seedlings and mature plants, and two seed-treated insecticides (Actara and Gaucho) and a treated check (Aldicarb) were assayed on seedlings. All of the foliar insecticides led to 60–100% reductions in whitefly infestations in each crop. Biofly and Neemix were the least efficacious insecticides. Incidences of whitefly-transmitted viruses were reduced in each insecticide-treated plot with seedlings of four crops; however, no effect on virus incidence was observed in the experiment with mature plants. Crops of cucumber, eggplant, squash and tomato displayed symptoms characteristic of Cucumber vein yellowing virus, Squash leaf curl virus or Tomato yellow leaf curl virus; however, no symptoms of whitefly-transmitted viruses were observed in green bean, potato or sugar beet. The results show that several biorational insecticides may suppress whitefly populations in seedlings to delay whitefly-transmitted viruses in some vegetable crops in Egypt.

Type
Short Communication
Copyright
Copyright © ICIPE 2015 

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References

Abd-Rabou, S. (1999) New records on whiteflies in Egypt. Journal of Agricultural Research 77, 11431146.Google Scholar
Abd-Rabou, S. and Simmons, A. M. (2010) Survey of reproductive host plants of Bemisia tabaci (Hemiptera: Aleyrodidae) in Egypt, including new host records. Entomological News 121, 456465.Google Scholar
Al-Musa, A., Anfoka, G., Misbeh, S., Abhary, M. and Ahmad, F. H. (2008) Detection and molecular characterization of Squash leaf curl virus (SLCV) in Jordan. Journal of Phytopathology 156, 311316.Google Scholar
Bacci, L., Crespo, A. L. B., Galvan, T. L., Pereira, E. J. G., Picanço, M. C., Silva, G. A. and Chediak, M. (2007) Toxicity of insecticides to the sweetpotato whitefly (Hemiptera: Aleyrodidae) and its natural enemies. Pest Management Science 63, 699706.Google Scholar
Desneux, N., Decourtye, A. and Delpuech, J. -M. (2007) The sublethal effects of pesticides on beneficial arthropods. Annual Review of Entomology 52, 81106.Google Scholar
Dinsdale, A., Cook, L., Riginos, C., Buckley, Y. M. and De Barro, P. (2010) Refined global analysis of Bemisia tabaci (Hemiptera: Sternorrhyncha: Aleyrodoidea: Aleyrodidae) mitochondrial cytochrome oxidase 1 to identify species level genetic boundaries. Annals of the Entomological Society of America 103, 196208.Google Scholar
EPA [United States Environmental Protection Agency] (2010) Agreement to terminate all uses of Aldicarb, August 2010 [online]. http://yosemite.epa.gov/opa/admpress.nsf/0/29F9DDDEDE97CAA88525778200590C93.Google Scholar
Farag, A. G., Amer, M. A., Amin, H. A. and Mayzad, H. M. (2005) Detection of bipartite geminiviruses causing Squash leaf curl disease in Egypt using polymerase chain reaction and nucleotide sequence. Egyptian Journal of Virology 2, 239354.Google Scholar
Henderson, C. F. and Tilton, E. W. (1955) Tests with acaricides against the brown wheat mite. Journal of Economic Entomology 48, 157161.CrossRefGoogle Scholar
Jones, D. (2003) Plant viruses transmitted by whiteflies. European Journal of Plant Pathology 109, 197221.Google Scholar
Mansour, A. and Al-Musa, A. (1993) Cucumber vein yellowing virus: host range and virus vector relationships. Journal of Phytopathology 137, 7378.Google Scholar
Mazyad, H. M., Omar, F., Al-Taher, K. and Salha, M. (1979) Observations on the epidemiology of tomato yellow leaf curl disease on tomato plants. Plant Disease Reporter 63, 695698.Google Scholar
SAS Institute (2010) SAS/STAT version 9.3. SAS Institute, Cary, NC.Google Scholar
Simmons, A. M. and Abd-Rabou, S. (2011) Populations of predators and parasitoids of Bemisia tabaci (Hemiptera: Aleyrodidae) after the application of eight biorational insecticides in vegetable crops. Pest Management Science 67, 10231028.Google Scholar