Differential Chlorate Inhibition of Chaetomium globosum Germination, Hyphal Growth, and Perithecia Synthesis

Chaetomium globosum Kunze:Fr is a dermatophytic, dematiaceous fungus that is ubiquitous in soils, grows readily on cellulolytic materials, and is commonly found on water-damaged building materials. Chlorate affects nitrogen metabolism in fungi and is used to study compatibility among anamorphic fungi by inducing nit mutants. The effect of chlorate toxicity on C. globosum was investigated by amending a modified malt extract agar (MEA), oat agar, and carboxymethyl cellulose agar (CMC) with various levels of potassium chlorate (KClO₃). C. globosum perithecia production was almost completely inhibited (90–100?%) at low levels of KClO₃ (0.1?mM) in amended MEA. Inhibition of perithecia production was also observed on oat agar and CMC at 1?and 10?mM, respectively. However, hyphal growth in MEA was only inhibited 20?% by 0.1–100?mM KClO₃ concentrations. Hyphal growth was never completely inhibited at the highest levels tested (200?mM). Higher levels of KClO₃ were needed on gypsum board to inhibit perithecia synthesis. In additional experiments, KClO₃ did not inhibit C. globosum, Fusarium oxysporum, Aspergillus niger, Penicillum expansum, and airborne fungal spore germination. The various fungal spores were not inhibited by KClO₃ at 1–100?mM levels. These results suggest that C. globosum perithecia synthesis is more sensitive to chlorate toxicity than are hyphal growth and spore germination. This research provides basic information that furthers our understanding about perithecia formation and may help in developing control methods for fungal growth on building materials.