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Hehana, A., El sharkawy, H., Gamal, M. (2019). IMPACT OF TRADITIONAL AND NANO SIO2 AGAINST BEMISIA TABACI AND APHIS GOSSYBII AND THEIR RESIDUES IN MINT AND THYME PLANTS.. Journal of Productivity and Development, 24(3), 555-569. doi: 10.21608/jpd.2019.44441
Abd-El-Hamed Hehana; Hamza El sharkawy; Mohamed Gamal. "IMPACT OF TRADITIONAL AND NANO SIO2 AGAINST BEMISIA TABACI AND APHIS GOSSYBII AND THEIR RESIDUES IN MINT AND THYME PLANTS.". Journal of Productivity and Development, 24, 3, 2019, 555-569. doi: 10.21608/jpd.2019.44441
Hehana, A., El sharkawy, H., Gamal, M. (2019). 'IMPACT OF TRADITIONAL AND NANO SIO2 AGAINST BEMISIA TABACI AND APHIS GOSSYBII AND THEIR RESIDUES IN MINT AND THYME PLANTS.', Journal of Productivity and Development, 24(3), pp. 555-569. doi: 10.21608/jpd.2019.44441
Hehana, A., El sharkawy, H., Gamal, M. IMPACT OF TRADITIONAL AND NANO SIO2 AGAINST BEMISIA TABACI AND APHIS GOSSYBII AND THEIR RESIDUES IN MINT AND THYME PLANTS.. Journal of Productivity and Development, 2019; 24(3): 555-569. doi: 10.21608/jpd.2019.44441

IMPACT OF TRADITIONAL AND NANO SIO2 AGAINST BEMISIA TABACI AND APHIS GOSSYBII AND THEIR RESIDUES IN MINT AND THYME PLANTS.

Article 7, Volume 24, Issue 3, July 2019, Page 555-569  XML PDF (511.7 K)
Document Type: Original Article
DOI: 10.21608/jpd.2019.44441
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Authors
Abd-El-Hamed Hehana* 1; Hamza El sharkawy1; Mohamed Gamal2
1Department of Plant Production, Faculty of Technology & Development, Zagazig University, Egypt
2Plant Protection Research Institute, A.R.C., Dokki, Giza, Egypt
Abstract
Silica provides expanded possibilities for use in horticultural crops. However, there are many crop pests on the lower surface of plant leaves. This is particularly challenging when silica is used because the material must have a direct contact with the insect to be effective. In this study, we evaluate the efficacy of two traditional forms for SiO2 and  SNPs against two different pests Bemisia tabaci, Aphis gossybsii under laboratory conditions. LC50 concentrations were measured after 24, 48, 72 and 96 hours, respectively. The SiO2 residues of traditional and their Nano particles were studied in leaves of mint, thyme, stems and soil, as well as the effect of drying and boiling techniques in the pesticide removal  were also studied.
The results indicated that the cumulative mortality rate of white fly and cotton aphid increased with increased pesticide concentration and/or increased time. The highest value of mortality in the tested insects was recorded in 96 hours of traditional SiO2 application. In case of silica Nano particles (SNPs), the highest mortality rate of white fly values ​​were observed at concentration of 2.50 µg/ml after 48 hours of treatment. While, the same mortality value was observed at 2.50 µg/ml after 24h of treatment for A. gossybsii. These results indicate that A. gossybsii was more susceptible to silica and Nano-silica particles SNPs than B. tabaci and that the Nano-silica particles SNPs are more effective than the traditional silica.
Conclusively, the results indicated that SiO2 of two forms plays the effective roles in integrated pest management and will be more effective when applied direct against white flies and aphis.
                             
Keywords
Lethality; B. tabaci and A. gossybii; insects; SiO2; SNPs; mint; thyme
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