Application of Entomopathogenic Nematodes to Control Larvae of Temnorhynchus baal (Reiche and Saulcy) Under Laboratory Conditions and In Strawberry Fields

D. Adly, G. Nouh, A. Eid
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Abstract

The white grub, Temnorhynchus baal, is a major pest of the strawberry crop in many Asian and African countries. The white grabs cause significant economic losses in the yield. The present study aims to evaluate the effectiveness of entomopathogenic nematodes (EPNs) on the third larval instar of T. baal under laboratory conditions. The study extended to compare the efficacy of a combination of EPNs ( Steinernema glaseri + Heterorhabditis bacteriophora ) against a natural infestation of T. baal with an organophosphorus insecticide (Diazinon) in an Egyptian strawberry field. In the laboratory, five larvae of T. baal were placed in soil and infected with EPNs. At the highest concentration of 4000 IJs/larva, the larvae were more susceptible to infection with S. glaseri than H. bacteriophora , with mortality percentages of 96 and 88%, respectively. The LC50 of S. glaseri and H. bacteriophora was 937.44 and 1026.58 IJs/larvae, respectively. The mortality percentage was 96% and 100% when treated for five larvae/cup and one larva/cup, respectively, after being infected with a combination of S. glaseri + H. bacteriophora . The mortality percentage was higher in the mixture than for each species studied individually. In the field, throughout the seasons, the percentage of wilted plants was 17.64, 66.09, and 83.95% in 2020 and 12.56, 67.87, and 75.62% in 2021, for the plots treated with a combination of EPNs, insecticides, and control, respectively. Present findings indicate that entomopathogenic nematodes are good alternatives to control the white grub, T. baal , in strawberry fields.
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昆虫病原线虫在草莓田和实验室条件下防治巴力夜蛾幼虫的应用
在许多亚洲和非洲国家,白蛴螬是草莓作物的主要害虫。白抢造成了重大的产量经济损失。本研究旨在评价昆虫病原线虫(EPNs)在实验室条件下对巴力小蠊第三龄幼虫的杀灭效果。该研究扩展到比较EPNs (glasernema + Heterorhabditis bacteriophora)组合在埃及草莓田对抗T. baal自然侵染与有机磷杀虫剂(Diazinon)的效果。在实验室中,将5只巴力绦虫幼虫置于土壤中感染EPNs。在最高浓度为4000 IJs/幼虫时,幼虫对glaseri s的易感程度高于嗜杆菌h,死亡率分别为96%和88%。glaseri和bacteriophora的LC50分别为937.44和1026.58 IJs/幼虫。glaseri s +嗜杆菌h联合感染后,5只/杯和1只/杯处理的死亡率分别为96%和100%。混合后的死亡率高于单独研究的每一种。在田间,各季节EPNs、杀虫剂和防治组合处理的枯萎率在2020年分别为17.64、66.09和83.95%,在2021年分别为12.56、67.87和75.62%。研究结果表明,昆虫病原线虫是防治草莓田白蛴螬的较好选择。
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42
审稿时长
5 weeks
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