TY - JOUR
T1 - Radiosensitization of rice weevil Sitophilus oryzae using combined treatments of essential oils and ionizing radiation with gamma-ray and X-Ray at different dose rates
AU - Hossain, Farah
AU - Follett, Peter
AU - Shankar, Shiv
AU - Begum, Tofa
AU - Salmieri, Stephane
AU - Lacroix, Monique
N1 - Publisher Copyright:
© 2020
PY - 2021/3
Y1 - 2021/3
N2 - Insect pests of stored products such as the rice weevil, Sitophilus oryzae can be controlled in bulk and packaged grains by ionizing radiation (γ-radiation or X-ray radiation) and plant essential oils, used in combination or alone, as an alternative to standard chemical fumigantion. Irradiation source and dose rate may be factors influencing the efficacy of plant essential oils. We evaluated the effects of γ-radiation at three dose rates (10.445, 4.558, and 0.085 kGy/h) and X-ray irradiation at two dose rates (0.76 and 0.19 kGy/h) in combination with Eucalyptus (Eucalyptus globules) or Tea tree (Melaleuca alternifolia) essential oil (EO) on the short-term mortality of S. oryzae. Adult weevils on rice in sealed Petri dishes were fumigated with 10 μL EO applied to a sponge then irradiated with a dose of 100, 250, 500, or 750 Gy. The combined treatment of Eucalyptus or Tea tree EOs with γ-irradiation or X-ray irradiation increased the mortality by 3–6 times as compared to irradiation treatment alone. The LD90 (predicted dose killing 90% of individuals) values for Eucalyptus EO plus γ-irradiation treated samples were 250.6, 252.8, and 522.4 Gy at dose rates of 10.445, 4.558, and 0.085 kGy/h, respectively, whereas the LD90 values for Tea tree EO plus γ-irradiation were similar (250.1, 255.07, and 574.3 Gy) when treated at dose rate of 10.445, 4.558, and 0.085 kGy/h dose rates, respectively. The lowest dose rate of γ-irradiation had the lowest efficacy in the combined treatment for both EOs. For the combined treatment of Eucalyptus or Tea tree EO with X-ray irradiation, LD90 values were 746.02 and 737.1 Gy with Eucalyptus EO and 632.03 and 615.5 Gy with Tea tree EO, at dose rates of 0.76 and 0.19 kGy/h, respectively. Overall, combined treatment LD90 values were significantly higher (less effective treatment) for X-ray than for γ-irradiation. Unlike γ-irradiation, the dose rate of X-ray irradiation did not affect efficacy in the combined treatments. Gamma or X-ray irradiation and plant EOs such as Eucalyptus or Tea tree EOs applied alone or in combination, are effective insecticidal treatments. The synergistic effects of irradiation and EOs may be source and dose rate dependent. Our results showed that synergistic effects with EOs against S. oryzae in rice was more effective (lower LD90 values) using higher dose rates of high energy γ-irradiation than at lower dose rates with either high energy γ-irradiation or low energy X-ray irradiation.
AB - Insect pests of stored products such as the rice weevil, Sitophilus oryzae can be controlled in bulk and packaged grains by ionizing radiation (γ-radiation or X-ray radiation) and plant essential oils, used in combination or alone, as an alternative to standard chemical fumigantion. Irradiation source and dose rate may be factors influencing the efficacy of plant essential oils. We evaluated the effects of γ-radiation at three dose rates (10.445, 4.558, and 0.085 kGy/h) and X-ray irradiation at two dose rates (0.76 and 0.19 kGy/h) in combination with Eucalyptus (Eucalyptus globules) or Tea tree (Melaleuca alternifolia) essential oil (EO) on the short-term mortality of S. oryzae. Adult weevils on rice in sealed Petri dishes were fumigated with 10 μL EO applied to a sponge then irradiated with a dose of 100, 250, 500, or 750 Gy. The combined treatment of Eucalyptus or Tea tree EOs with γ-irradiation or X-ray irradiation increased the mortality by 3–6 times as compared to irradiation treatment alone. The LD90 (predicted dose killing 90% of individuals) values for Eucalyptus EO plus γ-irradiation treated samples were 250.6, 252.8, and 522.4 Gy at dose rates of 10.445, 4.558, and 0.085 kGy/h, respectively, whereas the LD90 values for Tea tree EO plus γ-irradiation were similar (250.1, 255.07, and 574.3 Gy) when treated at dose rate of 10.445, 4.558, and 0.085 kGy/h dose rates, respectively. The lowest dose rate of γ-irradiation had the lowest efficacy in the combined treatment for both EOs. For the combined treatment of Eucalyptus or Tea tree EO with X-ray irradiation, LD90 values were 746.02 and 737.1 Gy with Eucalyptus EO and 632.03 and 615.5 Gy with Tea tree EO, at dose rates of 0.76 and 0.19 kGy/h, respectively. Overall, combined treatment LD90 values were significantly higher (less effective treatment) for X-ray than for γ-irradiation. Unlike γ-irradiation, the dose rate of X-ray irradiation did not affect efficacy in the combined treatments. Gamma or X-ray irradiation and plant EOs such as Eucalyptus or Tea tree EOs applied alone or in combination, are effective insecticidal treatments. The synergistic effects of irradiation and EOs may be source and dose rate dependent. Our results showed that synergistic effects with EOs against S. oryzae in rice was more effective (lower LD90 values) using higher dose rates of high energy γ-irradiation than at lower dose rates with either high energy γ-irradiation or low energy X-ray irradiation.
KW - Essential oil
KW - Gamma-ray
KW - Radiosensitization
KW - Sitophilus oryzae
KW - X-ray
UR - http://www.scopus.com/inward/record.url?scp=85097067641&partnerID=8YFLogxK
U2 - 10.1016/j.radphyschem.2020.109286
DO - 10.1016/j.radphyschem.2020.109286
M3 - Article
AN - SCOPUS:85097067641
SN - 0969-806X
VL - 180
JO - Radiation Physics and Chemistry
JF - Radiation Physics and Chemistry
M1 - 109286
ER -