Effects of controlled-release coated urea (CRCU) on soil microbial biomass N in paddy fields examined by the 15N tracer technique

Experiments were conducted in paddy fields at Shiga and Chiba Prefectures to study the effects of controlled-release coated urea (N-LP100) on soil microbial biomass and N uptake of rice plants by the ¹⁵N-tracer technique, during one cropping season. Three field fertilizer treatments (Zero N: 0 kgN ha^–1, ¹⁵N-LP100: 64 kg N ha^–1 and ¹⁵NH₄Cl: 100 kg N ha^–1) were set-up in the Shiga field experiment. After transplanting in the paddy fields at Shiga and Kashiwa (Chiba), a number of rice hills with standard growth were selected randomly and enclosed by polyacryl-plastic frames designated as microplots. ¹⁵N-LP100 (64 kg N ha^–1) was applied in the Shiga and Kashiwa microplot experiments and the Shiga field experiment as deep-side placement (5 cm away from rice hill and 5 cm soil depth). Total N uptake of rice plants was analyzed in the course of plant growth. In addition, soils from the field fertilizer treatment plots and microplots (divided into 11 blocks) were taken and analyzed for microbial biomass N (B_N) and biomass ¹⁵N (B_15N). The results indicated that; (1) Plant N uptake from basal-applied fertilizers at the end of the study in the Shiga field experiment was 71.9 and 26.0% for ¹⁵N-LP100 and ¹⁵NH₄Cl, respectively. In the Kashiwa microplot experiment, plant N uptake from applied ¹⁵N-LP100 was 51.2% at 67 days after transplanting (DAT) (2) Throughout the cropping season, B_N was the highest, intermediate and the lowest for ¹⁵NH₄Cl, ¹⁵N-LP100 and Zero N field experimental plots in the Shiga experiment, respectively. (3) In the micro-plot experiments, B_N and B_15N were generally higher in the soil block with deep-side application of ¹⁵N-LP100 compared with the other soil blocks. The deep-side placement of ¹⁵N-LP100 ensured a high efficiency of utilization of its N by rice plants. The method of ¹⁵N-LP100-placement also affected the spatial heterogeneity of microbial biomass N in the microplots.