面对杀虫剂抗药性,保持对水草的有效控制。

Acta Leidensia Pub Date : 1990-01-01
D C Kurtak
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引用次数: 0

摘要

通过减少盘尾丝虫病媒介鼠绵虫来控制盘尾丝虫病取决于对其幼虫进行高效的杀虫剂处理。由于这些治疗必须每周在大范围内应用多年,因此为耐药性的发展创造了理想的条件。出现了对有机磷化合物的耐药性。为了保持有效的病媒控制,有必要开展密集的业务研究工作。密切和持续的敏感性监测,结合对被试幼虫的细胞分类鉴定,揭示了抗性通过迁移和明显的群体间杂交传播的模式。这些研究有助于指出何时有可能遏制或消灭具有抗药性的种群。筛选了所有可用的合适化合物,在微生物(苏云金芽孢杆菌H14)、拟除虫菊酯(氯菊酯)和氨基甲酸酯(硫丹)基团中选择了替代化合物。实验室研究揭示了酯酶和多功能氧化酶对现有有机磷抗性的机制。交叉抗性试验表明,氨基甲酸酯类杀虫剂与这些机制没有交叉抗性,但与大多数拟除虫菊酯呈负相关。这些考虑,再加上对未来耐药性的估计风险、对非目标生物的影响和成本,导致了一种复杂的杀虫剂交替模式,苏云金芽孢杆菌H14在旱季使用,而一系列经典化合物在雨季使用。通过这些措施,病媒控制仍然是世卫组织西非盘尾丝虫病控制规划控制盘尾丝虫病的可行方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maintenance of effective control of Simulium damnosum in the face of insecticide resistance.

The control of onchocerciasis through reduction of its vector Simulium damnosum depends on highly effective insecticide treatments directed against the larvae. As these treatments must be applied weekly over wide areas for many years, ideal conditions for the development of resistance have been created. Resistance to organophosphate compounds has occurred. To maintain effective vector control, an intense operational research effort has been necessary. Close and constant monitoring of susceptibility, combined with cytotaxonomic identification of the tested larvae, has revealed the pattern of spread of the resistance by migration and apparently by hybridization between populations. These studies have helped indicate when it might be possible to contain or eliminate a resistant population. Screening of all available appropriate compounds has led to the selection of replacement compounds in the microbial (Bacillus thuringiensis H14), pyrethroid (permethrin), and carbamate (carbosulfan) groups. Laboratory studies have revealed esterase and multi-function oxidase mechanisms for the existing organophosphate resistance. Cross-resistance tests have shown no cross-resistance to carbamate insecticides with these mechanisms, but negative correlations with most pyrethroids. These considerations, along with estimated risk of future resistance, effects on non-target organisms, and costs have led to a complex alternation pattern of insecticides, with Bacillus thuringiensis H14 being used in the dry season and a series of classical chemical compounds in the wet season. Through these measures, vector control remains a viable method of onchocerciasis control for the WHO Onchocerciasis Control Programme in West Africa.

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