Journal
INTERNATIONAL JOURNAL OF ENVIRONMENTAL ANALYTICAL CHEMISTRY
Volume 103, Issue 17, Pages 6097-6114Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/03067319.2021.1949586
Keywords
Adsorption; hydrolysis; photo-degradation; hazardous; Fuberidazole; benzimidazole
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This study is a pioneer research on the toxic benzimidazole-based fungicide, Fuberidazole. It investigates the degradation and sorption characteristics of Fuberidazole in soil. The results indicate that Fuberidazole has medium sorption capacity, fast degradation rate, and high sensitivity to photolysis, but poses a low risk of groundwater contamination.
Current research is the pioneer report on toxic benzimidazole-based fungicide. Fuberidazole was for its sorptive and variegated degradative routes. Environmental investigation was performed on 10 heterogeneous soil samples from multiple localities. Analysis and quantification of Fuberidazole degradation and its metabolites were performed by gas chromatography mass spectrometry and UV-visible spectrophotometry. Soil adsorption and desorption processes were conducted in batch equilibrium, which yielded (13.0 to 25.8 mu g/g) (R-2 = 0.88-0.98) adsorption capacity while a mediocre desorption capability. Thermodynamic parameter, Delta G (Gibbs-free energy), exhibited physisorption and interaction of pesticide through weak Van der waal's forces. Degradation in soil exhibited a maximum dissipation rate of 99% with lowest half-life 0.95 days. Hydrolytic degradation displayed 97% transformation with lowest half-life of 3 days. Photolysis of Fuberidazole was achieved highest in lowest concentration of pesticide while least photo-degradation was observed in 7.5 ppm of just 12%. Results from the current research portray the medium sorptive capacities of Fuberidazole indicating lower risk of ground water contamination through leaching.
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