Ethyl formate (EF) was studied as a fumigant agent with the objective to replace methyl bromide (MB) for date fruit disinfestations. Date fruits Phoenix dactylifera ‘Deglet Nour’ with different initial moisture content (16% for dry dates, 20% for semidry dates, and a mixture of the two types) were separately fumigated with EF at different concentrations: 28.6, 57.3, 85.9, and 114.6 g/m3 for 2 h. Experimental data of EF sorption during fumigation was successfully fitted to Peleg's model. This model allows the prediction of the effects of date moisture content and EF concentration on sorption behavior. Samples with different moisture content showed similar EF sorption behavior. Dates were artificially infested with carob moth (Ectomyelois ceratoniae (Zeller)) at different life stages. Eggs, third- and fifth-instars, and pupae were exposed to 28.6, 57.3, 85.9, and 114.6 g/m3 EF for 2 h. Among these life stages, fifth-instars were the most resistant to EF fumigation. A 2-h fumigation with 114.6 g/m3EF provided complete control of eggs, third-instars, and pupae of carob moth, and generated 91.6% mortality of fifth-instars. A longer fumigation time or higher EF concentration may provide complete control of all life stages of carob moth.
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1 June 2015
Ethyl Formate Fumigation of Dry and Semidry Date Fruits: Experimental Kinetics, Modeling, and Lethal Effect on Carob Moth
Haithem Bessi,
Sihem Bellagha,
Kaouthar Grissa Lebdi,
Veronique Bikoba,
Elizabeth J. Mitcham
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Journal of Economic Entomology
Vol. 108 • No. 3
June 2015
Vol. 108 • No. 3
June 2015
carbon dioxide
moisture content
Peleg model
sorption
Vapormate