The production of ligninolytic enzymes was studied in surface cultures of the South American white-rot fungus Nematoloma frowardii b19 and four other strains of this ecophysiological group (Clitocybula dusenii b11, Auricularia sp. m37a, wood isolates u39 and u45), which are able to depolymerize low-rank-coal-derived humic acids with the formation of fulvic-acid-like compounds. The fungi produced the three crucial enzymes of lignin degradation - lignin peroxidase, manganese peroxidase and laccase. In the case of N. frowardii b19, laccase and the two peroxidases could be stimulated by veratryl alcohol. Manganese (II) ions (Mn2+) caused a rapid increase of Mn peroxidase activity accompanied by the complete repression of lignin peroxidase. Under nitrogen-limited conditions the growth as well as the production of ligninolytic enzymes was partly repressed. During the depolymerization process of coal humic acids using solid agar media, gradients of ligninolytic enzyme activities toward 2,2’-azinobis(3-ethylbenzthiazoline-6-sulphonate) and syringaldazine were detectable inside the agar medium.