Toxicity of Pristine and Chemically Functionalized Fullerenes to White Rot Fungus Phanerochaete chrysosporium.

Fullerenes are widely produced and applied carbon nanomaterials that require a thorough investigation into their environmental hazards and risks. In this study, we compared the toxicity of pristine fullerene (C) and carboxylated fullerene (C-COOH) to white rot fungus . The influence of fullerene on the weight increase, fibrous structure, ultrastructure, enzyme activity, and decomposition capability of was investigated to reflect the potential toxicity of fullerene. C did not change the fresh and dry weights of but C-COOH inhibited the weight gain at high concentrations. Both C and C-COOH destroyed the fibrous structure of the mycelia. The ultrastructure of was changed by C-COOH. Pristine C did not affect the enzyme activity of the culture system while C-COOH completely blocked the enzyme activity. Consequently, in the liquid culture, lost the decomposition activity at high C-COOH concentrations. The decreased capability in degrading wood was observed for exposed to C-COOH. Our results collectively indicate that chemical functionalization enhanced the toxicity of fullerene to white rot fungi and induced the loss of decomposition activity. The environmental risks of fullerene and its disturbance to the carbon cycle are discussed.