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A Mechanistic View of Interactions of a Nanoherbicide with Target Organism.

Aline Bertolosi BomboAnderson Espírito Santo PereiraMakeli Garibotti LusaEliana de Medeiros OliveiraJhones Luis de OliveiraEstefânia Vangelie Ramos CamposMarcelo Bispo B de JesusHalley Caixeta OliveiraLeonardo Fernandes FracetoJuliana Lischka Sampaio Mayer
Published in: Journal of agricultural and food chemistry (2019)
Atrazine is one of the most used herbicides and has been associated with persistent surface and groundwater contamination, and novel formulations derived from nanotechnology can be a potential solution. We used poly(ε-caprolactone) nanoencapsulation of atrazine (NC+ATZ) to develop a highly effective herbicidal formulation. Detailed structural study of interaction between the formulation and Brassica juncea plants was carried out with evaluation of the foliar uptake of nanoatrazine and structural alterations induced in the leaves. Following postemergent treatment, NC+ATZ adhered to the leaf and penetrated mesophyll tissue mainly through the hydathode regions. NC+ATZ was transported directly through the vascular tissue of the leaves and into the cells where it degraded the chloroplasts resulting in herbicidal activity. Nanocarrier systems, such as the one used in this study, have great potential for agricultural applications in terms of maintenance of herbicidal activity at low concentrations and a substantial increase in the herbicidal efficacy.
Keyphrases
  • human health
  • drug delivery
  • risk assessment
  • heavy metals
  • drinking water
  • climate change
  • induced apoptosis
  • oxidative stress
  • high glucose
  • diabetic rats
  • cell cycle arrest
  • combination therapy