BIOCIDE MANIPULATION OF N FLOW TO INVESTIGATE ROOT MICROBE COMPETITION IN FOREST SOIL

Root/microbe competition was investigated as a mechanism controlling fertilizer N uptake by coniferous forest trees. Combinations of biocides both with and without N-15 labelled urea, were applied to microcosms containing Sitka spruce seedlings, to selectively inhibit target microbial groups which may be competing with roots for N. After 1 growing season, concentrations of fertilizer N and total N in the trees, as well as populations of microbes and animals, were determined. Biocidal inhibition of microbial populations, particularly of fungi, was associated with significant increases in concentrations of fertilizer N and total N in Sitka spruce seedlings. Application of the fungicide benlate, for example, increased the concentration of fertilizer-derived N in spruce needles by one order of magnitude, and was associated with significant reductions in FDA-active hyphal lengths of fungi. This approach to investigating N-flow offers considerable potential for short term experiments involving competition for fertilizer/available N, where the microbial biomass represents the major 'sink' for N in competition with roots.