http://cfs.nrcan.gc.ca/authors/read/15589?lang=en_CA Publications by T. Aarnio en-ca 2000-08-26 00:00:00 MST 2000-08-26 00:00:00 MST webmaster@nofc.cfs.nrcan.gc.ca http://cfs.nrcan.gc.ca/publications?id=4730 In a 1 yr laboratory incubation of a Douglas-fir forest floor (FH) the effects of two different kinds of organic N compounds, fast-release urea (U) and slow-release ureaformaldehyde (UF), on N transformations were studied. Compounds labelled with 15N were used to follow the mineralization and distribution of added N in the following pools: NH4+-N, (NO2- + NO3-)-N, soluble organic N, microbial biomass N and total N in the soil residue. The effects of U and UF on microbial activity (CO2 production), microbial biomass (FE and SIR) and on the numbers of autotrophic nitrifiers (MPN) were also studied. The pattern of transformation of N was quite different. In the U-treated soils the added N contributed mostly to the exchangeable NH4+ pool, whereas in the UF-treated soils the highest amount of the added N was found in the soil residue. In the U-treated soils the amount of NH4+ was constant throughout the experiment, but the 15N in it was diluted by mineralization of native organic N. In the UF-treated soils the accumulation of exchangeable NH4+ started slowly and increased steadily. However, the atom % 15N excess in the NH4+ pool stayed constant, as it did in the soil residue. This unchanged 15N enrichment of NH4+ indicates formation of a UF-humic complex. Higher atom % 15N excess in the UF-treated soils in the exchangeable NH4+ pool (2.8%) than in the soil residue (1.5%) suggests also that the UF-N entered the active organic N pool in the soil. The results presented here help to explain earlier field observations, where UF was shown to improve the N status of forest soil, and the applied N was retained in an available N pool. Sat, 26 Aug 2000 http://cfs.nrcan.gc.ca/publications?id=4730