The fate of ammonium nitrogen applied to flooded rice as affected by zeolite addition |
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Authors: | Ho Ando Chikako Mihara Ken-ichi Kakuda Genshichi Wada |
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Institution: | 1. Faculty of Agriculture , Yamagata University , Tsukuba , 997 , Japan;2. Faculty of Agriculture , Yamagata University , Tsukuba , 997 , Japan;3. Nippon Koei Co. Ltd. , Kojimachi, Chiyoda-ku, Tokyo , 102 , Japan |
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Abstract: | High rice (Oryza sativa L.) yields are closely related to plant absorption of a large amount of nitrogen (N). However, there is little information on the fate of N applied at the middle growth stages of rice. Labeled 15N ammonium sulfate was applied at the panicle formation stage in Experiment I, and 10 d after heading in Experiment II. Zeolite was also added at the concentration of 0, 0.01, and 0.1 kg kg-1 to increase the cation exchange capacity (CEC) of the soil. The amount of 15N fertilizer in the soil surface water decreased exponentially and the fertilizer disappeared within 2 d after application. The soil that received zeolite at 0.1 kg kg-1 exhibited significantly less 15NH4 +-N in the surface water and in the soil solution than the soil without the zeolite amendment. A significantly larger amount of exchangeable 15NH4 +-N was observed in the high zeolite-treatment of soil compared to the low zeolite-treatment of soil. The amount of exchangeable 15NH4 +-N increased initially, and thereafter decreased to traces 4 d after application in Experiment I, while 6 or 9 d after application in Experiment II. The disappearance of exchangeable 15NH4 +-N could be attributed mainly to the uptake by plants. The zeolite amendment or the time of N application did not significantly affect the amount of immobilized N. The rate of N adsorption was inhibited with increasing zeolite application. Moreover, zeolite application did not increase the recovery percentage of ammonium sulfate by rice plants. The total recovery of applied N ranged from 65 to 75%, irrespective of the zeolite treatments or the time of N application. |
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Keywords: | CEC nitrification rice plant topdressed zeolite |
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