Biological Studies on the Effect of Gamma Radiation and Thermal Treatment on the Angoumois Grain Moth, Sitotroga cerealella (Olivier)
Egypt. Acad. J. Biolog. Sci. (A. Entomology) Vol. 12(2) pp: 53- 43 (2019) • 2019
Publication Information
Authors
Waheed A.A. Sayed1
, Naglaa, F. Abdel-Hameid2 Mehany, A. L3
, and El-Zoghby, I.R.4
Keywords
Stored product,
disinfestation, lethal
doses, combination
treatments
Journal
Egypt. Acad. J. Biolog. Sci. (A. Entomology) Vol. 12(2) pp: 53- 43 (2019)
Publisher
Egyptian Academic Journal of Biological Sciences A. Entomology
Volume
11(3)
Issue
1687- 8809
Pages
29-36
publication.type
Local
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
Gamma radiation and heat treatments are considered
promising techniques for disinfestation treatments against
stored product pests. This study aimed to evaluate the effects of
thermal treatment with 40, 50, 70 and 90°C and different doses
of gamma radiation from 40 to 350 Gy on Sitotroga cerealella
stages. The result demonstrated that the LD50 of gammairradiation was 57.7, 61.9 and 74.0 Gy in irradiated eggs, pupae,
and larvae, respectively. Concomitantly, the complete mortality
(100 %) of heat treatment was recorded at 40°C, while the 90°C
caused 100 % mortality to larva and egg stages. The results
indicated that the egg stage is highly sensitive to irradiation
doses than larvae and pupal stages, while the pupal stage is
highly sensitive to the heat treatments than eggs and larval
stages. Consequently, treatment with low doses 80 Gy and low
heat condition 40°C was more effective than the other
combination treatments. The results suggested that 80 Gy &
40°C was an effective treatment to prevent the reproduction of
S. cerealella and could use for managing this pest with was the
environment.
promising techniques for disinfestation treatments against
stored product pests. This study aimed to evaluate the effects of
thermal treatment with 40, 50, 70 and 90°C and different doses
of gamma radiation from 40 to 350 Gy on Sitotroga cerealella
stages. The result demonstrated that the LD50 of gammairradiation was 57.7, 61.9 and 74.0 Gy in irradiated eggs, pupae,
and larvae, respectively. Concomitantly, the complete mortality
(100 %) of heat treatment was recorded at 40°C, while the 90°C
caused 100 % mortality to larva and egg stages. The results
indicated that the egg stage is highly sensitive to irradiation
doses than larvae and pupal stages, while the pupal stage is
highly sensitive to the heat treatments than eggs and larval
stages. Consequently, treatment with low doses 80 Gy and low
heat condition 40°C was more effective than the other
combination treatments. The results suggested that 80 Gy &
40°C was an effective treatment to prevent the reproduction of
S. cerealella and could use for managing this pest with was the
environment.
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