Beitrag
Screening the optimal dose of gamma radiation for Tuta absoluta sterility: paving the way for sterile insect technique programs
Zhou, Shuxing; Li, Xiaowei; Zhang, Jinming; Liu, Chaogang; Huang, Jun; Zhang, Zhijun; Ren, Xiaoyun; Chen, Limin; Hafeez, Muhammad; Han, Peng; Wang, Bingkui; Lu, Yaobin
Entomologia Generalis Volume 44 Number 2 (2024), p. 415 - 422
veröffentlicht: May 23, 2024
Online veröffentlicht: Sep 27, 2023
Manuskript akzeptiert: Jun 12, 2023
Manuskript-Revision erhalten: Apr 13, 2023
Manuskript-Revision angefordert: Dec 30, 2022
Manuskript erhalten: Nov 4, 2022
DOI: 10.1127/entomologia/2023/1898
Open Access (Arbeit kann kostenlos heruntergeladen werden)
Abstract
Tuta absoluta (Meyrick) is a destructive pest of tomato crops. The cryptic nature of larvae often leads to low control efficacy. Sterile insect technique (SIT) has the potential to be an alternative management option for T. absoluta. In this study, the optimal dose for T. absoluta sterility was determined by estimating the effect of gamma radiation on parental generation (F0) and their descendants (first and second generation, F1 and F2). Adult emergence was not affected when T. absoluta pupae were exposed to gamma radiation at doses of 100~400 Gy. However, increasing doses of radiation increased deformed individuals and shortened their longevity. Furthermore, as the dose increased, F0 females showed decreased fecundity and fertility, and they were completely sterile when exposed to 300 Gy. The survival and sex ratio of females declined significantly in F1 of irradiated males with increasing doses. Moreover, we found that 300 Gy of gamma radiation did not affect the mating competitiveness of F0 males. Interestingly, this treatment caused a considerable reduction in the number of descendants and caused inherited sterility in F1 by lowering their fecundity and fertility. Therefore, the optimal radiation dose was 300 Gy, and the release of sterile adults may suppress T. absoluta population growth in the field. Our findings provide basis for controlling T. absoluta through SIT programs.
Schlagworte
South American tomato pinworm • SIT • optimal dose • inherited sterility • mating competitiveness