Polar metabolites of polycyclic aromatic compounds from fungi are potential soil and groundwater contaminants

•The soil fungus Cunninghamella elegans transformed PACs into highly polar metabolites.•58 PAC metabolites were tentative identified.•A batch sorption experiment with polar PAC metabolites was performed in three soils.•Partition coefficients (Kd’s) of the PAC metabolites indicate high mobility in soil. This study investigated the sorption to soil of water-soluble metabolites from polycyclic aromatic compounds (PACs). The soil fungus Cunninghamella elegans was used to produce PAC metabolites from two un-substituted PACs (phenanthrene, pyrene), three alkyl-substituted PACs (2-methylnaphthalene, 1-methylphenanthrene, 1-methylpyrene), and one sulfur-containing heterocyclic PAC (dibenzothiophene). Fifty-eight metabolites were tentatively identified; metabolites from the un-substituted PACs were hydroxylated and sulfate conjugated, whereas metabolites from alkyl-substituted PACs were sulfate conjugated and either hydroxylated or oxidized to carboxylic acids at the methyl group. The metabolism of the sulfur-containing heterocyclic PAC resulted in sulfate conjugates. The sorption of the PAC metabolites to three soils was determined using a batch equilibrium method, and partition coefficients (Kd’s) were calculated for fourteen representative metabolites. Sulfate conjugated metabolites displayed Kd’s below 70 whereas the metabolites with both a sulfate and a carboxylic acid group had Kd’s below 2.8. The low Kd’s of water-soluble PAC metabolites indicate high mobility in soil and a potential for leaching to surface- and groundwaters.