Composición química del aceite esencial de Artemesia herba-alba y sus efectos larvicida y pupicida contra Culex pipiens (Diptera; Culicidae)

Salma Kaoutar Abdelali; Karim  Souttou; Mohamed Kacimi‐Elhassan; Lynda Aissaoui; Hamid Bendachou

doi:10.17533/udea.acbi/v45n118a01

Autores/as

Salma Kaoutar Abdelali Universidad de ferhat abbas
Karim Souttou Universidad de Djelfa
Mohamed Kacimi‐Elhassan Universidad de Djelfa
Lynda Aissaoui Universidad de Ferhat Abbas
Hamid Bendachou Universidad de Djelfa

DOI:

https://doi.org/10.17533/udea.acbi/v45n118a01

Palabras clave:

bioinsecticidas, extracciòn, control biológico, moleculas naturales, parámetros toxicológicos

Resumen

Artemisia herba-alba (A. herba-alba) (Asteraceae) es ampliamente utilizada en fitoterapia ya que tiene una verdadera mina de moléculas naturales como la davanona, que es un producto muy interesante en el mercado internacional. La presente investigación propone un método para el control de los estadios preimaginarios de Culex pipiens (L4 y pupas) a base de aceite esencial de A. herba-alba. La parte aérea de esta planta fue extraída por hidrodestilación, luego fue analizada por cromatografía de gases acoplada a la espectrometría de masas (CPG/SM) para la determinación de su composición química. Se prepararon tres concentraciones (1, 5 y 10 μl/ml) y se probaron directamente en larvas (L4) y pupas en condiciones de laboratorio para medir los valores LC₅₀, LC₉₀, LT₅₀ y LT₉₀. El rendimiento obtenido en este estudio fue del 1,5%, además el análisis mostró que el aceite de A. herba-alba es un quimiotipo de davanona que consiste principalmente en davanona (48,8%). La eficiencia de este aceite esencial se expresa por los parámetros toxicológicos calculados en la CL₅₀y CL₉₀, para larvas de 3,278 μl/ml y 7,573 μl/ml, y para pupas 1,213 μl/ml y 2,288 μl/ml, respectivamente. Este estudio muestra que el aceite esencial de A. herba-alba tiene propiedades tóxicas sobre larvas y pupas de Culex pipiens. Estos resultados son alentadores y abren interesantes y prometedores horizontes para su aplicación en la producción de bioinsecticidas.

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Biografía del autor/a

Salma Kaoutar Abdelali, Universidad de ferhat abbas

Laboratory of Research on the Improvement and Development of Animal and Plant Production, University of Ferhat Abbas, Setif, Algeria.

Karim Souttou, Universidad de Djelfa

Laboratory for Exploration and Valorization of Steppe Ecosystems, University of Ziane Achour, Djelfa, Algeria.

Mohamed Kacimi‐Elhassan, Universidad de Djelfa

Laboratory of Organic Chemistry and Natural Substances, University of Ziane Achour, Djelfa, Algeria.

Lynda Aissaoui, Universidad de Ferhat Abbas

Laboratory of Research on the Improvement and Development of Animal and Plant Production, University of Ferhat Abbas, Setif, Algeria.

Hamid Bendachou, Universidad de Djelfa

Laboratory for Exploration and Valorization of Steppe Ecosystems, University of Ziane Achour, Djelfa, Algeria.

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