BACKGROUND: The application of biochar to sandy loam soil to reduce leaching of three representative pollutants (a persistent hydrocarbon (phenanthrene; logK(OW) 4.46), a herbicide (isoproturon; logK(OW) 2.50), and an antibiotic (sulfamethazine; logK(OW) 0.28)) were investigated. The wood-derived biochar evaluated in our laboratory study was the solid co-product of a full-scale gasifier feeding a combined heat and power plant. The research aimed to demonstrate multiple environmental benefits with the innovative use of this biochar as a soil improver. RESULTS: Batch sorption experiments indicated that 5% biochar added to soil enhanced the partitioning coefficient (K-d) by factors of 2 for phenanthrene and 20 for both sulfamethazine and isoproturon. Column leaching experiments indicated a reduced porewater flow rate, up to 80% slower in the column amended with 5% biochar, and reduced pollutant leaching risks. Numericalmodels interlinked batch and column study observations. CONCLUSION: (i) Biochar enhanced sorption for the hydrophobic pollutant phenanthrene, and also the less hydrophobic pollutants sulfamethazine and isoproturon; (ii) reduced porewater flowrates following biochar amendment gave rise to greater opportunity for pollutant-solid interaction; (iii) mixing with soil resulted in biochar fouling affecting pollutant partition; and (iv) irreversible retention of pollutants by the soil was an importantmechanism affecting pollutant transport. (C) 2017 Society of Chemical Industry