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Abstract
Antioxidant activity (AA) of black maize kernels attributed mainly to polyphenols has potential effects on health and possible defense functions against pests. Our objective was to evaluate the effects of maize polyphenols and AA in survival and growth of larvae of the corn borer Sesamia nonagrioides. We carried out two bioassays with S. nonagrioides larvae grown in artificial diet with white and black maize flour and control. AA was tested spectrophotometrically on each of the diets using four methods. The different measurements of AA were strongly correlated, indicating that these measurements were highly reliable. The control diet, the white-maize-diet and black-maize-diet with vitamin C and without H2O2 had the highest antioxidant activity. The processing of the maize flour altered the AA of the polyphenols. The control treatment had the highest AA, and vitamin C had stronger AA than polyphenols. AA of vitamin C hides that of polyphenols probably due to environmental effects, dilution of polyphenols, or interactions with other substances. Larvae grew more in the control diet and the addition of H2O2 had not significant effects on weight. There was a weak rank correlation between AA and larval weight. Mortality was lowest for the control diet with or without H2O2 followed by white maize with or without H2O2 and black maize without H2O2. Effects of polyphenols depend on other substances that might interact with them. The results indicate that antioxidant activity has insecticide effects on young larvae and, as the larvae grow, antioxidants have positive effects on larvae.
Highlights
Antioxidant activity (AA) has been associated to insecticide effects; plants with high AA could be used for developing eco-friendly repellents for the post-harvest protection of grain crops (Bedini et al, 2016)
Our objective was to evaluate the effects of maize polyphenols and AA in survival and growth of larvae of the corn borer Sesamia nonagrioides
The four measurements of AA were strongly correlated, with highly significant correlations coefficients that varied from r2 = 0.832 between FOLIN and DPPH, to r2 = 0.996 between ferric reducing antioxidant power (FRAP) and ABTS
Summary
Antioxidant activity (AA) has been associated to insecticide effects; plants with high AA could be used for developing eco-friendly repellents for the post-harvest protection of grain crops (Bedini et al, 2016). Nesci et al (2012) reported insecticidal activity of synthetic antioxidants on insects that were vectors of fungal infections. Garcia-Lara & Bergvinson (2014) reported a significant association between insect resistance and AA in a maize population improved for insect resistance. There are no definitive evidences of effects of polyphenols on insect growth or survival in leaves (Costa-Arbulú et al, 2001; Simmonds, 2003; Lev-Yadun & Kevin, 2008), but phenolic compounds may be associated with elevated chemical defenses (Simmonds, 2003; Karageorgou et al, 2008).
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