Effect of biochar on the mobility and photodegradation of metribuzin and metabolites in soil‒biochar thin-layer chromatography plates

Biochars obtained by biomass pyrolysis have been proposed as a soil amendment to improve soil properties and fertility as well as to retain pesticides and other environmental contaminants. The present study investigates the degradation of metribuzin herbicide and its metabolites deamino- (DA), deami...

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Bibliographic Details
Published in:International journal of environmental analytical chemistry 2019-03, Vol.99 (4), p.310-327
Main Authors: Haskis, Panagiotis, Mantzos, Nikolaos, Hela, Dimitra, Patakioutas, Georgios, Konstantinou, Ioannis
Format: Article
Language:English
Subjects:
Analytical methods
Biochar
Biodegradation
Charcoal
Computer simulation
Contaminants
Electron microscopy
Environmental degradation
Fertility
Fourier transforms
Herbicides
Infrared radiation
Infrared spectroscopy
Kinetics
Metabolites
Metribuzin
Mobility
Pesticides
Photodegradation
Pyrolysis
Reaction kinetics
Scanning electron microscopy
soil
Soil amendment
Soil contamination
Soil fertility
Soil improvement
Soil layers
Soil mixtures
Soil properties
Substrates
Surface layers
Thin layer chromatography
X-ray diffraction
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Summary:Biochars obtained by biomass pyrolysis have been proposed as a soil amendment to improve soil properties and fertility as well as to retain pesticides and other environmental contaminants. The present study investigates the degradation of metribuzin herbicide and its metabolites deamino- (DA), deaminodiketo- (DADK) and diketo- (DK) metribuzin under simulated solar light and dark conditions as well as their mobility using TLC plates coated with soil and soil‒biochar mixtures at 1% and 5% w/w ratio. Biochar was characterised by X-Ray diffraction, porosimetry, scanning electron microscopy and Fourier transform infrared spectroscopy. Degradation under light conditions followed biphasic kinetics, with bi-exponential model fitted better for the soil substrate, while the Gustafson-Holden model was found more appropriate to describe degradation kinetics in 1% soil/biochar mixture. In soil, DA presented the lowest degradation rate (DT 50 :440.9 h), followed by metribuzin (DT 50 :208.0 h), DADK (DT 50 :110.8 h) and DK (DT 50 :106.5 h). The addition of biochar reduced drastically the degradation or even inhibited the photolytic process for the studied reaction period. The mobility retention factor (Rf) in soil ranged from 0.49 for metribuzin to 0.63 for DADK. The addition of biochar practically immobilises the compounds in the surface layer as Rf ranged from 0.14 to 0.10 for metribuzin and from 0.23 to 0.16 for DADK in soil/biochar mixtures 1% and 5%, respectively. In conclusion, the addition of biochar reduced dramatically the photodegradation rates as well as the mobility of metribuzin and its metabolites due to increased adsorption.
ISSN:0306-7319
1029-0397
DOI:10.1080/03067319.2019.1597863