Combining sterile insect releases with refuge areas to delay the evolution of resistance to Bt sugarcane: an agent-based modeling approach.

Linke Potgieter, Dirk J Human, Samantha Downing
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Abstract

The strategic use of refuge areas is a well-known method for delaying the development of pest resistance to Bacillus thuringiensis (Bt) crop. A lesser-known method to control against resistance development is sterile insect releases. In this article, an agent-based simulation model is used to test the effectiveness of combining the use of Bt sugarcane, refuge areas, and sterile insect releases as an integrated strategy against Eldana saccharina Walker (Lepidoptera: Pyralidae) infestation and resistance development. Individual insects are modeled with their own genetic traits on a simulated sugarcane field that represents either Bt or refuge area. The model is applied to 2 hypothetical case studies. In the first experiment, resistance development and infestation dynamics in Bt sugarcane without refuge areas are considered using various sterile:wild sterile release ratios, and different release distributions. In the second experiment, the inclusion of a refuge area in Bt sugarcane is considered, using various sterile:wild releases ratios and different release distributions. A trade-off between sterile insect releases and the use of the refuge area was observed, and could, in some cases, work against each other.

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将昆虫不育释放与庇护区相结合以延缓 Bt 甘蔗抗药性的演变:一种基于代理的建模方法。
战略性地使用保护区是一种众所周知的方法,可延缓害虫对苏云金芽孢杆菌(Bt)作物产生抗药性。一种鲜为人知的控制抗性发展的方法是昆虫不育释放。本文利用基于代理的模拟模型,测试了将 Bt 甘蔗、避难区和不育昆虫释放作为综合策略,防治 Eldana saccharina Walker(鳞翅目:俾拉尔科)虫害和抗性发展的效果。在代表 Bt 或保护区的模拟甘蔗田中,单个昆虫以其自身的遗传性状建模。该模型应用于两个假设案例研究。在第一个实验中,使用不同的不育株与野生不育株释放比率和不同的释放分布,考虑了无庇护区 Bt 甘蔗的抗性发展和虫害动态。在第二个实验中,使用不同的不育株与野生不育株释放比和不同的释放分布,考虑了在 Bt 甘蔗中加入保护区的问题。结果表明,昆虫不育释放与庇护区的使用之间存在权衡,在某些情况下,两者可能会相互影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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