Summary
The fate of 100 kg N ha−1 applied as15N-urea and its modified forms was followed in 4 successive field-grown wetland rice crops in a vertisol. The first wet season crop recovered about 27 to 36.6% of the applied N depending upon the N source. In subsequent seasons the average uptake was very small and it gradually decreased from 1.4 to 0.5 kg N ha−1 although about 18 to 20, 12 to 17 and 14 to 18 kg ha−1 residual fertilizer N was available in the root zone after harvest of first, second and third crops, respectively. The average uptake of the residual fertilizer N was only 7.6% in the second crop and it decreased to 4.5% in the third and to 3.2% in the fourth crop although all these crops were adequately fertilized with unlabelled urea. The basal application of neem coated urea was more effective in controlling the leaching loss of labelled NH4+NO3−N than split application of uncoated urea. In the first 3 seasons in which15N was detectable, the loss of fertilizer N through leaching as NH4+NO3−N amounted to 0.5 kg ha−1 from neem-coated urea, 1.5 kg from split urea and 4.1 kg from coal tar-coated urea. At the end of 4 crops, most of the labelled fertilizer N (about 69% on average) was located in the upper 0–20 cm soil layer showing very little movement beyond this depth. In the profile sampled upto 60 cm depth, totally about 13.8 kg labelled fertilizer N ha−1 from neem-coated urea, 12.7 kg from coal-tar coated urea, and 11.8 kg from split urea were recovered. The average recovery of labelled urea-N in crops and soil during the entire experimental period ranged between 42 and 51%. After correcting for leaching losses, the remaining 47 to 56% appeared to have been lost through ammonia volatilization and denitrification.
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Rao, K.V., Shinde, J.E. Transformation of15N-labelled urea and its modified forms in tropical wetland rice culture. Plant Soil 85, 413–421 (1985). https://doi.org/10.1007/BF02220196
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DOI: https://doi.org/10.1007/BF02220196