Nutrient stoichiometry of aquatic hyphomycetes: Interstrain variation and ergosterol conversion factors

Ecological stoichiometry is a powerful concept. Rarely, however, has it been applied to fungi, despite their pivotal role in ecosystems. In view of the paucity of stoichiometric data, we grew 16 fungal isolates from streams in liquid culture (C:N:P = 160:16:1) and analysed them for nitrogen (N), phosphorus (P) and ergosterol as a fungal biomass marker. Interspecific differences explained up to 60% of the variation in N, P and ergosterol concentrations, and variation between strains of the same species accounted for up to another 16%. We found an average C:N:P of 136:10:1 in mycelia, while N:ergosterol and P:ergosterol ratios were 9.5 and 2.5, respectively. These ratios are an important step towards establishing reliable conversion factors to estimate the contribution of fungi to litter nutrient contents in complex field samples. Estimates could be further improved by applying the species-specific conversion factors we obtained. Additional analyses of fungal strains in conditions reflecting field situations are needed to strengthen the basis of such estimates of fungal nutrient pools in ecosystems; however, inherent variation within species limits the accuracy and precision that can be achieved.