The fungal solubilization of cell wall components of sugar-beet pulp, during solid-state fermentation of Thermoascus aurantiacus, is reported here. The extracellular fungal enzyme activities related to the substrate degradation were also studied. In 120 h, more than 60% of the main sugar-beet pulp polysaccharides, i.e. pectins, arabinose- and glucose-containing polysaccharides, were rapidly brought into solution by the fungus. The slow accumulation of monosaccharides compared to the fast degradation of the polysaccharides suggested that most of the released sugars were consumed by the fungus. The analysis of the enzymes present in the water extracts of the solid-state cultures proved that the fungus was able to synthesize a complete enzymatic system required for the hydrolysis of the main sugar-beet pulp polysaccharides. The highest enzyme activities measured were β-glucosidase and α-L-arabinofuranosidase.