Formicidal activity of indole derivatives on Atta opaciceps (Borgmeier): Lethal, behavioural and locomotive effects

The leaf‐cutting ants of the genus Atta are of extreme importance for agriculture and forestry. Few active products can be employed to control these pests and, therefore, the discovery of new insecticidal products represents a fundamental strategy for its management. In this study, we evaluated the...

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Published in:Journal of applied entomology (1986) 2019-02, Vol.143 (1-2), p.58-68
Main Authors: Costa, Ângela C. F., Cavalcanti, Sócrates C. H., Santana, Alisson S., Lima, Ana P. S., Santana, Emile D. R., Brito, Thaysnara B., Oliveira, Rafael R. B., Macêdo, Nathália A., Cristaldo, Paulo F., Bacci, Leandro
Format: Article
Language:English
Subjects:
Agricultural management
Ants
Atta opaciceps
Attini
behaviour
Derivatives
Forestry
indole
Indoles
Locomotion
Pest control
Pests
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Summary:The leaf‐cutting ants of the genus Atta are of extreme importance for agriculture and forestry. Few active products can be employed to control these pests and, therefore, the discovery of new insecticidal products represents a fundamental strategy for its management. In this study, we evaluated the mortality, behaviour and locomotion of workers of Atta opaciceps (Borgmeier) exposed to synthesized indole derivatives. The most active compound was 4d [1‐(1H‐indol‐3‐yl)pentan‐1‐one] (LD50 = 0.018 μg/mg), while the 4e [1‐(1H‐indol‐3‐yl)hexan‐1‐one] (LD50 = 3.82 μg/mg) was the least active compound. These two derivatives reduced the survival of A. opaciceps over time and altered the behaviour and locomotion of these ants. This study demonstrates the potential of indole derivatives to produce new formicidal products, since, in addition to being effective, it also affects the ant's behaviour and locomotion.
ISSN:0931-2048
1439-0418
DOI:10.1111/jen.12569