As propriedades inseticidas dos óleos essenciais são geralmente reconhecidas ao longo dos séculos e confirmadas cientificamente nas últimas décadas. Tais produtos podem ser usados na agricultura como uma alternativa para o controle de pragas. O óleo essencial derivado das folhas de Hymenaea courbaril L. var. courbaril foi obtido por hidrodestilação com arraste a vapor e caracterizado fitoquimicamente por cromatografia gasosa/espectrometria de massa (CG/EM); seu potencial acaricida e inseticida foi avaliado contra Tetranychus urticae e Sitophilus zeamais, respectivamente, pragas que ocorrem em uma ampla variedade de culturas economicamente importantes em todo o mundo. Após a análise por CG/EM, foram identificados 36 compostos, sendo 46,42% dos monoterpenos e 51,41% dos sesquiterpenos. Os bioensaios inseticidas avaliaram a interferência do óleo essencial na fisiologia nutricional do gorgulho e no processo de fumigação do ácaro. Os ensaios indicaram que o óleo essencial causou uma mortalidade significativa, promovendo danos fisiológicos ao S. zeamais. O valor de CL50 para T. urticae foi de 35,57 μL/mL de ar; além disso, também foi observado que a oviposição foi afetada negativamente pelo óleo essencial. O óleo essencial de H. courbaril demonstrou ser um potencial controle de pragas por afetar o metabolismo e a reprodução de ambas as espécies de praga testadas.
The deterioration and degradation of crops by insects causes economic losses of several billion dollars and affects food security. Sitophilus zeamais and Tetranychus urticae are two economically important species of crops around the world. The high toxicity of synthetic insecticides and the development of insect resistance to currently used chemicals stimulate the investigation of plant-derived insecticides as new alternatives for pest control. The insecticidal properties of secondary metabolites have been recognized, and have been confirmed scientifically in the last decades. The extract in cyclohexane (Ch) and ethyl acetate (Ea) of the leaves of Anadenanthera colubrina var. cebil collected in the dry and rainy seasons were evaluated for the survival and nutritional physiology of S. zeamais (maize weevil) and the acaricidal effect front T. urticae (two-spotted spider). All extracts induced mortality of S. zeamais; however, only cyclohexane dry season (Chd) and ethyl acetate in the rainy season (Ear) caused significant mortality (p <0.05), more than 50%, promoting physiological damage to insects in all concentrations tested. In the mortality tests with the spider mite, extracts Chd and Ear showed an LC50 of 52.75 and 156.42 mg.mL-1. Still, in the same test, it can be observed that oviposition was also susceptible to extracts. Therefore, the extracts of A. colubrina are a source of compounds capable of interfering with and impairing the metabolism of the two studied pests.
Several microorganisms are responsible for great economic losses in world agriculture. Preventive and treatment methods are applied to avoid contamination of crops by these microorganisms, however, the use of chemical antimicrobials damages health and the environment. Secondary plant metabolites are safe natural sources of antimicrobials for this application. Fabaceae family has its history described in the literature as a potential source for obtaining antimicrobial bioactive. The objective of this work was to isolate bioactive compounds guided by antimicrobial assays against bacteria and fungi in vitro. Organic extracts were prepared by eluotropic series of leaves of Anadenanthera colubrina var. cebil and were tested against six bacteria and six fungi phytopathogenic. The antimicrobial assays of minimum inhibitory concentration (MIC) and minimum microbicidal concentration (MMC) were performed at each purification step that occurred through HPLC-DAD, Flash Chromatography and HPLC-preparative analysis, to confirm the isolation of the bioactive. Through bioguided isolation, the compound p-hydroxybenzoic acid was obtained, which showed activity against the phytobacteria Xanthomonas campestris pv. campestris and Acidovorax citrulli.
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