A trade-off in activated biochar capping of complex sediment contamination: reduced PAH transport at the cost of potential As mobilisation

Abstract: Purpose The effect of thin-layer capping with activated biochar on sediment-to-water flux was investigated. For the first time, the diffusion of both polycyclic aromatic hydrocarbons (PAHs) and arsenic (As) were studied simultaneously. The fate of As was investigated, under successive dysoxic and oxic conditions, in order to assess and discuss potential trade-off effects when using biochar as an active sorbent for capping of multi-contaminated sediments. Methods … Show more

“…This approach, while effective in reducing PAH flux, has been identified to potentially facilitate the mobilization of arsenic (As) under oxygen-rich conditions, thereby underscoring the critical need for strategies that carefully consider the dynamics of multiple pollutants. The study, which used sediment samples from Bureå bay in Sweden, demonstrated that activated biochar effectively decreased PAH diffusion but inadvertently increased As mobility [187]. This finding highlights the importance of a balanced assessment in the application of biochar capping techniques, especially in sediments contaminated with various pollutants, to prevent the exacerbation of contaminant dispersion, particularly with arsenic.…”

“…Analyses revealed over 75% of PAHs originated from coal combustion and vehicle emissions [186]. In a very recent research, the adoption of innovative methods, specifically thin-layer capping with activated biochar, was explored to address the challenge of mitigating the migration of PAHs from sediments to aquatic systems [187]. This approach, while effective in reducing PAH flux, has been identified to potentially facilitate the mobilization of arsenic (As) under oxygen-rich conditions, thereby underscoring the critical need for strategies that carefully consider the dynamics of multiple pollutants.…”

Polycyclic Aromatic Hydrocarbons (PAHs) in Freshwater Systems: A Comprehensive Review of Sources, Distribution, and Impacts

“…This approach, while effective in reducing PAH flux, has been identified to potentially facilitate the mobilization of arsenic (As) under oxygen-rich conditions, thereby underscoring the critical need for strategies that carefully consider the dynamics of multiple pollutants. The study, which used sediment samples from Bureå bay in Sweden, demonstrated that activated biochar effectively decreased PAH diffusion but inadvertently increased As mobility [187]. This finding highlights the importance of a balanced assessment in the application of biochar capping techniques, especially in sediments contaminated with various pollutants, to prevent the exacerbation of contaminant dispersion, particularly with arsenic.…”

“…Analyses revealed over 75% of PAHs originated from coal combustion and vehicle emissions [186]. In a very recent research, the adoption of innovative methods, specifically thin-layer capping with activated biochar, was explored to address the challenge of mitigating the migration of PAHs from sediments to aquatic systems [187]. This approach, while effective in reducing PAH flux, has been identified to potentially facilitate the mobilization of arsenic (As) under oxygen-rich conditions, thereby underscoring the critical need for strategies that carefully consider the dynamics of multiple pollutants.…”

Polycyclic Aromatic Hydrocarbons (PAHs) in Freshwater Systems: A Comprehensive Review of Sources, Distribution, and Impacts