The Role of Nanoengineered Biochar Activated with Fe for Sulfanilamide Removal from Soils and Water.
Beatriz GámizPilar VelardeKurt A SpokasLucía CoxPublished in: Molecules (Basel, Switzerland) (2022)
Biochar is a nanoengineered sorbent proposed to control the contamination derived from the presence of residual concentrations of sulfonamides in soil. In this work, we evaluated the sorption of sulfanilamide (SFA) in commercial biochar (BC) produced at 500 °C from oak hardwood ( Quercus ilex ) and its analog activated with 2% ( w / w ) Fe (BC-Fe). Subsequently, the effect on dissipation and transport of SFA in untreated soil and soil treated with BC and BC-Fe was also assessed. Laboratory batch studies revealed that BC-Fe increased the sorption of SFA as compared to the pristine BC with K d of 278 and 98 L/kg, respectively. The dissipation of SFA in either untreated soil or soil treated with BC or BC-Fe was similar, displaying half-lives ranging between 4 and 6.4 days. Conversely, the concurrent determination of sorption during the incubation experiment showed that lower amounts of SFA in solution at the beginning of the experiments were bioavailable in BC-Fe-treated soil when compared to the rest of the treatments shortly after application. Leaching column studies confirmed the amendment's capability to bind the SFA compound. Therefore, the decrease in bioavailability and movement of SFA in treated soils suggest that biochar soil application can reduce SFA soil and water contamination. According to our results, BC surface modification after Fe activation may be more appropriate for water decontamination than for soil since there were no significant differences between the two types of biochar when added to the soil. Therefore, these outcomes should be considered to optimize the SFA mitigation potential of biochar.
Keyphrases
- plant growth
- heavy metals
- sewage sludge
- organic matter
- risk assessment
- anaerobic digestion
- health risk
- squamous cell carcinoma
- human health
- solid phase extraction
- type diabetes
- drinking water
- mass spectrometry
- climate change
- high resolution
- skeletal muscle
- metabolic syndrome
- radiation therapy
- newly diagnosed
- locally advanced