Effects of Nitrogen Application Level on Rice Nutrient Uptake and Ammonia Volatilization

doi:10.1016/S1672-6308(13)60117-1

Abstract

Abstract:

The effects of different nitrogen application levels on nutrient uptake and ammonia volatilization were studied with the rice cultivar Zheyou 12 as a material. The accumulative amounts of nitrogen, phosphorus and potassium in rice plants across all growth stages showed a trend to increase with increasing nitrogen application levels from 0 to 270 kg/hm2, but decreased at nitrogen application levels exceeding 270 kg/hm2. Moreover, the accumulative uptake of nitrogen, phosphorus and potassium by the rice plants was increased by application of organic manure in combination with 150 kg/hm2 nitrogen. The nitrogen uptake was high during the jointing to heading stages. Correlation analysis showed that rice yield was positively correlated with the accumulative uptake of nitrogen, phosphorus and potassium by the rice plants. The highest correlation coefficient observed was between the amount of nitrogen uptake and rice yield. The rate and accumulative amounts of ammonia volatilization increased with increasing nitrogen fertilizer application level. Compared with other stages, the rate and accumulative amount of ammonia volatilization were higher after base fertilizer application. The ammonia volatilization rates in response to the nitrogen application levels of 270 kg/hm2 and 330 kg/hm2 were much higher than those in the other treatments. The loss of nitrogen through ammonia volatilization accounted for 23.9% of the total applied nitrogen at the nitrogen application level of 330 kg/hm2.

Key words: rice, nitrogen, nutrient uptake, ammonia volatilization

YU Qiao-gang, YE Jing, YANG Shao-na, FU Jian-rong, MA Jun-wei, SUN Wan-chun, JIANG Li-na, WANG Qiang, WANG Jian-mei. Effects of Nitrogen Application Level on Rice Nutrient Uptake and Ammonia Volatilization[J]. RICE SCIENCE, DOI: 10.1016/S1672-6308(13)60117-1 .

References

Cao H S, Huang P S, Miao B S, Lu S L, Cheng J T. 1992. The analysis of nitrogen uptake and the study on fertilization technique in two types of japonica rice. J Univ Sci Technol Suzhou: Soc Sci, 9(1): 35–41. (in Chinese with English abstract)
Duan Y H, Zhang Y L, Shen Q R, Chen H Y, Zhang Y. 2005. Effect of partial replacement of NH4+ by NO3? on nitrogen uptake and utilization by different genotypes of rice at the seedling stage. Plant Nutr Fert Sci, 11(2): 160–165. (in Chinese with English abstract)
Fan X H, Song Y S, Lin D X, Yang L Z, Zhou J M. 2005. Ammonia volatilization losses from urea applied to wheat on a paddy soil in Taihu Region, China. Pedosphere, 15(1): 59–65.
Guindo D, Wells B R, Norman R J. 1994. Cultivars and nitrogen rate influence on nitrogen uptake and partitioning in rice. Soil Sci Soc Am J, 58(3): 840–849.
Huang J L, He F, Cui K H, Buresh R J, Xu B, Gong W H, Peng S B. 2008. Determination of optimal nitrogen rate for rice varieties using a chlorophyll meter. Field Crops Res, 105: 70–80.
Jiang L G, Dai T B, Jiang D, Cao W X, Gan X Q, Wei S Q. 2004. Characterizing physiological N use efficiency as influenced by nitrogen management in three rice cultivars. Field Crops Res, 88: 239–250.
Li F M, Fan X L, Chen W D. 2005. Effects of controlled release fertilizer on rice yield and nitrogen use efficiency. Plant Nutr Fert Sci, 11(4): 494–500. (in Chinese with English abstract)
Lin D X, Fan X H, Hu F, Zhao H T, Luo J F. 2007. Ammonia volatilization and nitrogen utilization efficiency in response to urea application in rice fields of the Taihu Lake Region, China. Pedosphere, 17(5): 639–645.
Liu L J, Xu W, Tang C, Wang Z Q, Yang J C. 2005. Effect of indigenous nitrogen supply of soil on the grain yield and fertilizer-N use efficiency in rice. Chin J Rice Sci, 19(4): 343–349. (in Chinese with English abstract)
Liu L J, Xu W, Wu C F, Yang J C. 2007. Characteristics of growth, development and nutrient uptake in rice under site-specific nitrogen management. Chin J Rice Sci, 21(2): 167–173. (in Chinese with English abstract)
Lu R K. 1999. Analysis Measures for Agro-chemical on Soil. Beijing: China Agricultural Science and Technology Press: 1–638. (in Chinese)
Moll R H, Kamprath E J, Jackson W A. 1982. Analysis and interpretation of factors which contribute to efficiency of nitrogen utilization. Agron J, 74: 562–564.
Peng S B, Huang J L, Zhong X H, Yang J C, Wang G H, Zou Y B, Zhang F S, Zhu Q S, Roland B, Christian W. 2002. Research strategy in improving fertilizer-nitrogen use efficiency of irrigated rice in China. Sci Agric Sin, 35(9): 1095–1103. (in Chinese with English abstract)
Song Y S, Fan X H, Lin D X, Yang L Z, Zhou J M. 2004. Ammonia volatilation from paddy fields in the Taihu Lake region and its influencing factors. Acta Ped Sin, 41(2): 265–269. (in Chinese with English abstract)
Tang Q Y, Feng M G. 2002. DPS Data Processing System for Practical Statistics. Beijing: Science Press: 648. (in Chinese)
Vlek P L G, Byrnes B H. 2000. The efficiency and loss of fertilizer N in lowland rice. Fert Res, 9: 131–147.
Wang W N, Lu J W, He Y Q, Li X K, Li H. 2011. Effects of N, P, K fertilizer application on grain yield, quality, nutrient uptake and utilization of rice. Chin J Rice Sci, 25(6): 645–653. (in Chinese with English abstract)
Wang X Q, Zhang H C, Huang Y Z, Dai Q G, Huo Z Y, Xu K, Shao S Z, Xu X J. 2003. Effects of N-application rate on the characters of uptake nitrogen and nitrogen recovery of different rice varieties. J Shanghai Jiaotong Univ: Agric Sci, 21(4): 325–330. (in Chinese with English abstract)
Wang Z H, Liu X J, Ju X T, Zhang F S. 2002. Field in situ determination of ammonia volatilization from soil: Venting method. Plant Nutr Fert Sci, 8(2): 205–209. (in Chinese with English abstract)
Wopereis-Pura M M, Watanabe H, Moreira J, Wopereis M C S. 2002. Effect of late nitrogen application on rice yield, grain quality and profitability in the Senegal River valley. Eur J Agron, 17: 191–198.
Wu C Y, Tang X, Chen Y, Yang S M, Ye S H. 2011. Effect of fertilization systems on yield and nutrients absorption in japonica rice variety Zhejing 22. Acta Agric Zhejiang, 23(1): 132–137. (in Chinese with English abstract)
Xie J C. 1998. Present situation and prospects for the world’s fertilizer use. Plant Nutr Fert Sci, 4(4): 321–330. (in Chinese with English abstract)
Xu M G, Li D C, Li J M, Qin D Z, Kazuyuki Y, Yasukazu H. 2008. Effects of organic manure application combined with chemical fertilizers on nutrients absorption and yield of rice in Hunan of China. Sci Agric Sin, 41(10): 3133–3139. (in Chinese with English abstract)
Yang C M, Yang L Z, Yan T M, Ou Y Z. 2004. Effects of nutrient regimes on dry matter production and nutrient uptake and distribution by rice plant. Chin J Soil Sci, 35(2): 199–202. (in Chinese with English abstract)
Yang S N, Yu Q G, Ye J, Jiang N, Ma J W, Wang Q, Wang J M, Sun W C, Fu J R. 2010. Effects of nitrogen fertilization on yield and nitrogen use efficiency of hybrid rice. Plant Nutr Fert Sci, 16(5): 1120–1125. (in Chinese with English abstract)
Ye S C, Lin Z C, Dai Q G, Jia Y S, Gu H Y, Chen J D, Xu L S, Wu F G, Zhang H C, Huo Z Y, Xu K, Wei H Y. 2011. Effects of nitrogen application rate on ammonia volatilization and nitrogen utilization in rice growing season. Chin J Rice Sci, 25(1): 71–78. (in Chinese with English abstract)
Zeng J M, Cui K H, Huang J L, He F, Peng S B. 2007. Responses of physio-biochemical properties to N-fertilizer application and its relationship with nitrogen use efficiency in rice (Oryza sativa L.). Acta Agron Sin, 33(7): 116–117. (in Chinese with English abstract)
Zhang Q C, Wang G H, Fang B. 2005. Influence of fertilization treatment on nutrients uptake by rice and soil ecological characteristics of soil microorganism in paddy field. Acta Ped Sin, 42(1): 116–121. (in Chinese with English abstract)
Zhang Y H, Zhang Y L, Huang Q W, Xu Y C, Shen Q R. 2006. Effects of different nitrogen application rates on grain yields and nitrogen uptake and utilization by different rice cultivars. Plant Nutr Fert Sci, 12(5): 616–621. (in Chinese with English abstract)
Zhu Z L, Sun B, Yang L Z, Zhang X. 2005. Policy and countermeasures to control non-point pollution of agriculture in China. Sci Technol Rev, 3(4): 47–51. (in Chinese with English abstract)

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