Nitrous oxide and nitric oxide emissions from maize field plots as affected by N fertilizer type and application method

NO and NO emissions from an Andisol maize field were studied. The experimen tal treatments were incorporation of urea into the plough layer at 250 kg N ha(-1) by two applications (U1250), band application of urea at a depth of 8 cm at 75 kg N ha(-1) plus incorporation of urea into the plough layer at 75 kg N ha(-1) (UB150), band application of polyolefin-coated urea at a de pth of 5 cm at 150 kg N ha(-1) (CB150), and a control (without N applicatio n). N2O fluxes from U1250 and UB 150 peaked following the incorporation of supplementary fertilizer, and declined to the background level after that, while the NO flux from CB 150 was relatively low but remained at constant l evel until shortly after harvest. Accordingly, the total N2O emissions duri ng the whole cultivation period from the three treatments were not signific antly different. The fertilizer-derived N2O-N losses from U1250, UB150 and CB150 were 0.15%, 0.27% and 0.28% of the applied N, respectively. However, it was suggested that, due to the low plant N recovery, U1250 had a signifi cantly larger potential for indirect N2O emission than the other treatments . On the other hand, NO emissions from U1250 and UB 150 were 12 times highe r than that from CB 150, and the fertilizer-derived NO-N losses from the th ree treatments were 0.16%, 0.27% and 0.026% of the applied N, respectively. Significant NO fluxes were detected only when urea-N fertilizer was surfac e-applied and incorporated into plough-layer soil.