Evaluation of the insecticidal activity of essential oils and their mixtures against Aedes aegypti (Diptera: Culicidae)

Abstract The search for new insecticides to control dengue fever, chikungunya, and Zika vectors has gained relevance in the past decades. The aim of the present study was to evaluate the larvicidal action of essential oils (EOs) from Thymus vulgaris, Salvia officinalis, Lippia origanoides, Eucalyptus globulus, Cymbopogon nardus, Cymbopogon martinii, Lippia alba, Pelargonium graveolens, Turnera diffusa, and Swinglea glutinosa on Aedes (Stegomyia) aegypti. The EOs were extracted by microwave-assisted hydrodistillation and characterized by gas chromatography/mass spectrometry (GC/MS). The chemical components of the EOs were identified by linear retention indices and mass spectra. Lethal concentrations (LC50 and LC95) were determined by probit analysis using larvae of Ae. aegypti between the third and the fourth instars. All EOs achieved larvicidal activity at LC50 values lower than 115 mg/L. The lowest LC50 value (45.73 mg/L) corresponded to T. vulgaris EO, whereas C. martinii EO showed the highest LC50 (LC50 = 114.65 mg/L). Some EO mixtures showed lower LC50 than oils used individually, such as the mixtures of L. origanoides + S. glutinosa (LC50 = 38.40 mg/L), T. diffusa + S. glutinosa (LC50 = 63.71 mg/L), and L. alba + S. glutinosa (LC50 = 48.87 mg/L). The main compounds of the EOs with highest larvicidal activity were thymol (42%) and p-cymene (26.4%).

Composición de las oleorresinas de dos variedades de ají picante (habanero y tabasco) obtenidas mediante lixiviación con solventes orgánicos / Composition of oleoresins from two kinds of chili pepper (habanero and tabasco) obtained by lixiviation with organic solvents

Introducción. En el desarrollo de nuevos procesos e ingredientes para la industria alimentaria, las técnicas de extracción permiten obtener principios activos a partir de productos naturales, aptos para el consumo humano y fuertemente relacionados con la tendencia hacia una alimentación más saludable y libre de contaminantes. Las oleorresinas de especies vegetales permiten el manejo simultáneo de componentes pigmentantes y aromatizantes como en el caso de los pimientos, para los cuales la extracción con solventes orgánicos es una práctica común que debe refinarse de tal modo que se empleen sustancias de extracción seguras y aprobadas para el consumo humano. Objetivo. Comparar la composición de la oleorresina de dos variedades de ají picante (tabasco y habanero) extraída con dos solventes diferentes (hexano y acetato de etilo). Materiales y métodos. Se tomó material seco de dos variedades de ají picante (tabasco y habanero) y se sometieron a extracción con dos solventes orgánicos diferentes (hexano y acetato de etilo). Las oleorresinas resultantes fueron concentradas para calcular el rendimiento en extracción y luego fueron analizadas en un HPLC para determinar su contenido en capsaicina y dihidrocapsaicina. Resultados. Se encontró que el acetato de etilo es un mejor solvente que el hexano, pues presenta un porcentaje general de extracción del 11,23% frente a 7,14%. En la caracterización por HPLC se encontraron concentraciones aceptables de los principios pungentes (capsaicina y dihidrocapsaicina) las cuales corresponden con los valores teóricos en los cuales el ají habanero presenta entre 150.000 y 325.000 Unidades Scoville y tabasco presenta entre 50.000 y 100.000 Unidades Scoville. Conclusión. En un proceso de extracción con solventes sobre ají picante, se obtiene un mejor rendimiento en extracción empleando acetato de etilo como solvente y una mayor concentración de capsaicina y dihidrocapsaicina empleando ají habanero.

Introduction. In the development of new processes and ingredients for food industry, extraction techniques allow us to obtain active principles from natural products, good for human consuming and strongly related to the tendency towards a healthier and free of contaminants feeding. Oleoresins from vegetables allow us to work with dye and aromatic components (as in the case of peppers, for which, extraction with organic solvents is a common practice that must be refined in such a way that only safe and apt for human consumption substances are used). Objective. To compare the composition of oleoresin from two kinds of chili pepper (Tabasco and habanero) extracted with two different solvents (hexane and ethyl acetate). Materials and methods. Dry material from both kinds of chili pepper were taken and submitted to extraction with two different organic solvents (hexane and ethyl acetate). The oleoresins that resulted from this procedure were concentrated to calculate their performance in extraction and then analyzed in a HPLC to determine their contents of capsaicin and dihydrocapsaicin. Results. We found that ethyl acetate is a better solvent than hexane; it shows a general percentage of extraction of 11.23% compared to a 7.14%. In the characterization with the HPLC we found acceptable concentrations of the pungent principles (capsaicine and dihydrocapsaicin), corresponding to the theoretical values in which habanero pepper represents a value between 150000 and 325000 Scoville units and the Tabasco, between 50000 and 10000 Scoville units. Conclusion. In an extraction process for chili peppers, a better extraction performance is obtained by using ethyl acetate as solvent and a better concentration of capsaicin and dihydrocapsaicin by using habanero chili pepper.