%0 Journal Article %A Yoder, D. L. %A Lockwood, J. L. %T Fungal Spore Germination on Natural and Sterile Soil %D 1973 %J Microbiology, %V 74 %N 1 %P 107-117 %@ 1465-2080 %R https://doi.org/10.1099/00221287-74-1-107 %I Microbiology Society, %X SUMMARY: The germination process of spores of several fungi which require exogenous energy-sources was initiated in non-amended natural soil, a medium deficient in energy-yielding substrates. As measured by subsequent germination time on sterilized soil, this phase accounted for about 8 to 25% of the total germination time. In conidia of Penicillium frequentans it was irreversible, was inhibited by temperatures of 1°C and was dependent on water alone. Continued progress towards germ-tube formation required exogenous energy-yielding nutrients. When incubation on sterilized soil was interrupted by exposure to non-amended natural soil or a model system designed to imitate the microbial energy-source sink of natural soil, progress towards germination ceased in several fungi. Progress already made towards germination was maintained if the exposure to deprived conditions was short (about 3 days or less), but if longer the germination process reverted towards the water-dependent phase. The reversal, in P. frequentans conidia, paralleled the loss of 14C from spores labelled with [14C]glucose. When 14C-labelled conidia were incubated in an artificial nutrient sink, the label lost was about equally divided between 14CO2 and non-gaseous 14C-labelled metabolites. Pretreatment of P. frequentans conidia in water stimulated uptake of [14C]glucose. The results support the view that soil fungistasis in many instances is caused by nutrient deprivation. %U https://www.microbiologyresearch.org/content/journal/micro/10.1099/00221287-74-1-107