Impact of 15N-labeled rice straw and rice straw compost application on N mineralization and N uptake by rice

Incorporation of plant residues in soil affects N and C content and dynamics. This studydetermined the effects of short-term alternative rice (Oryza sativa L.) residue management on Nmineralization and uptake by rice. Pot and laboratory incubation experiments were established byincorporating 15N-labeled rice straw and rice straw compost in paddy soil. The 15N recovered by riceaveraged 16.6%; most of this recovered 15N-fertilizer was cycled through soil pools and only smallamounts originated from labeled rice residues. At harvest, denitrification rate of rice straw and ricestraw compost was 27.2% and 38.5%, respectively in the pot experiment, while residual N in soilranged from 56.2% and 55.1%, respectively. The incubation study showed that about 22-26% of Nfrom 15N-labeled rice straw was mineralized over a period of 105 days. Recovery of residual 15Nfertilizerappears to contribute little to total inorganic N. The results showed that rice residues exerteda small and short-term positive effect on N mineralization and N uptake.