Abstract
Ionizing irradiation is a useful technique for disinfestation under plant quarantine as well as post-harvest management. Effects of gamma irradiation treatment were tested on different developmental events of Carposina sasakii, which is a serious pest of various orchard crops. Apple fruits infested by C. sasakii were irradiated by gamma rays ranging from 0 to 300. Gy. Inhibition rates were determined on behavioral events related to development, including larval exit from apples, cocoon formation, adult eclosion, and oviposition. Failure rates of all these developmental events increased with increasing doses of irradiation. Rates of larval exit from apples and cocoon formation decreased to 13.2% and 1.7%, respectively, at 300. Gy. However, the adult eclosion rate decreased to 5.4% at 100. Gy and was completely inhibited at doses greater than 150. Gy. LD99 values for the inhibition of cocoon formation and adult emergence was estimated into 313.4 and 191.0. Gy. Furthermore, adults developed from irradiated larvae completely failed to lay eggs. Thus, irradiation of infested apples at doses of 200. Gy and higher completely inhibited the next generation of C. sasakii. Our results suggest that gamma irradiation treatment would be a promising technique for the control of C. sasakii.
Original language | English |
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Pages (from-to) | 136-139 |
Number of pages | 4 |
Journal | Radiation Physics and Chemistry |
Volume | 106 |
DOIs | |
State | Published - Jan 2015 |
Keywords
- Developmental inhibition
- Gamma irradiation
- Phytosanitary
- Quarantine