Abstract
Rice is a very responsive crop to nitrogen, but the efficiency of the N-fertilizer is low. Greenhouse experiment has been conducted to evaluate several methods to improve fertilizer efficiency and reduce N-losses in rice fields. N-15 labelled urea was applied to 10 kg soils in pots, urea was applied alone, addition of two urease inhibitors N-(n-butyle) thiosphosphoric triamide (NBPT) and hydroquinone (HQ), with addition of nitrification inhibitor Dicyandimide (DCD), or with the combination of both inhibitors. The fertilizer was applied either broadcast on soil surface or at depth of 8 cm below the surface. At maturity, plants were separated into grain and straw, dried and weighted. Soil and plant samples were analyzed for total N and N-15 excess. Both fertilizer placement and inhibitor application significantly increased straw and grain yield, as well as N- uptake. Nitrogen derived from fertilizer (% Ndff) was more than doubled, when urea was applied deep and in combination with inhibitors. Total plant recovery of N-15 labelled urea ranged from 17% to 75% according to treatment. Regardless of inhibitors application, plant recovery was increased from 39% to 65% when urea was applied at depth of 8 cm. Approximately, 2/3 of the applied urea (64%) was lost, when urea was applied alone. Those losses were reduced down to 12% with deep placement and inhibitor application. The two management practices show significant effect on minimizing N-losses and increasing plant recovery.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdel Monem, M (1986) Labelled urea fertilizer experiments on soils Mediterranean region. Ph.D. Thesis, Dept. of Agronomy, Colorado State Univ., Fort Collins, Co., USA
Abdel Monem, M (1991) Greenhouse evaluation of NBPT-urease inhibitor on urea fertilizer applied to barley using N-15. Egypt, J Appl Sci 6 (2): 186–194
Abdel Monem, M and Ryan, J (1991) Residual effect of labelled N in a vertisol of North Africa. 2nd African Soil Science Soc. Conf. 4–10 Nov, Cairo, Egypt
Abdel Monem, M, Gadalla AM and Abbady, K (1993) Fate of urea-N applied to rice as affected by Azolla treatment. Isotope and Radiation Res. (in press)
Aleksic, Z, Broeshart, H and Middleboe, V (1968) Shallow depth placement of (NH4)2SO4 in submerged rice soils as related to gaseous losses of fertilizer nitrogen and fertilizer efficiency. Plant and Soil, 28: 338–342.
Amberger, A (1989) Research on dicyandiamide as nitrification inhibitor and future work. Commun in Soil Sci Plant Anal 20: 1933–1953
Brandon, DM, and Wells, BR (1986) Improving nitrogen fertilization in mechanized rice culture. In De Datta SK and Patrick WH (eds) Nitrogen economy of flooded rice in soils. Martinus Nijhoff Publ. Co., The Netherlands
Bremner, JM and Mulvaney, RL (1982) Total nitrogen. In Page ALet al. (eds) Methods of soil analysis. Part II. Agronomy, 9: 595–624
Byrnes, BH, Savant NK and Fillery, IRP (1984) Effect of urease inhibitor, phenyl-phosphorodiamidate, on the efficiency of urea applied to rice. Soil Sci Soc Am J 74: 270–274
Craswell, ET, and Vlek, PL (1979) Fate of fertilizer nitrogen applied to wetland rice. In: Nitrogen and Rice, pp 175–192. IRRI. Los Banos, Philippins
Craswell, ET, De Datta, SK, Obcemea, WN and Hartantyp, M (1981) Time and mode of nitrogen fertilizer application to tropical wetland rice. Fert Res 2: 247–259
Craswell, ET, De Datta, SK, Weeraratne, CS and and Vlek, PL (1985) Fate and efficiency of nitrogen fertilizers applied to wetland rice. I. The Philippines. Fert Res 6 (1): 49–63
De Datta, SK (1981) Principles and practices of rice production. John Wiley and Sons. Inc., New York, pp 618
Fillery, IRP, De Datta, SK and Craswell, ET (1986) Effect of phenyl phosphorodiamidate on the fate of urea applied to wetland rice fields. Fert Res 9: 251–263
Flinn, JC, Mamaril, CP, Velascs, LE and Kaiser, K (1984) Efficiency of modified urea fertilizer for topical irrigated rice. Fert Res 5: 157–174
Katyal, JC, Singh, B, Sharma, VK and Craswell, ET (1985) Efficiency of some modified urea fertilizer for wietland rice grown on a permeable Soil. Fert Res 8: 137–146
Khind, CS, and Datta, NP (1975) Effect of method and timing of nitrogen application on yield and fertilizer nitrogen utilization by lowland rice. J Indian Soc Soil 23: 442–446
Mikkelson, DS, and De Datta, SK (1979) Ammonia volatilization from wetland rice soils. pp 135–156. In: Nitrogen and Rice. IRRI, Los Banos, Philippines
Mulvaney, RL, and Bremner, JM (1978) Use of P-benzoquinone and hydroquinone for retardation of urea hydrolysis in soils. Soil Biol Biochem 10:297–302
Murayama, N (1979) The importance of nitrogen for rice production. Nitrogen and Rice. pp 5–23. IRRI., Los Banos, Philippines
Patrick, WH (1982) Nitrogen transformation in submerged soils. In Stevenson (ed) Nitrogen in Agriculture. Agronomy, A.S.A. Madison, Wisconsin
Wells, BR, Bollich, BK, Ebelhar, W, Mikkelsen, DS, Norman, RJ, Brandon, DM, Helms, RS, Turner, FT and Westcott, MP (1989) Dicyandiamide (DCD) as a nitrification inhibitor for rice culture in the United States. Common in Soil Sci Plant Anal 20: 2023–2047
Wilson, CF, Norman, RJ and Wells, BR (1990) Dicyandiamide influence on uptake of preplant applied fertilizer nitrogen by rice. Soil Sci Soc Am J 54: 1157–1161
Yamamuro, S (1981) The accurate determination of nitrogen-15 with an emission spectrometer. Soil Sci Plant Nutr 27: 405–419
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Soliman, M.S., Abdel Monem, M.A.S. Effect of method of N-application and modified urea on N-15 recovery by rice. Fertilizer Research 43, 143–148 (1995). https://doi.org/10.1007/BF00747694
Issue Date:
DOI: https://doi.org/10.1007/BF00747694