Effect of a late season urea fertilization on methane emission from a rice field in Italy

被引:65
作者
Dan, JG [1 ]
Krüger, M [1 ]
Frenzel, P [1 ]
Conrad, R [1 ]
机构
[1] Max Planck Inst Terr Mikrobiol, D-35043 Marburg, Germany
关键词
CH(4) production; CH(4) oxidation; Paddy field; ammonium; methane; rice; northern Italy;
D O I
10.1016/S0167-8809(00)00265-6
中图分类号
S [农业科学];
学科分类号
09 ;
摘要
The application of NH(4)(+)-based fertilizers is a common practice in rice production. The immediate effect of a late season urea application on the processes involved in CH(4) emission from a rice field was investigated on sandy loam located in the valley of River Po at Vercelli, northern Italy, and planted with rice (Oryza sativa, type japonica, variety Koral). Urea, applied at a rate of 50 kg N ha(-1) on the 75th day after flooding, significantly stimulated both CH(4) production and CH(4) oxidation. During the following 9 days, the rates of CH(4) production and CH(4) oxidation in the 0-3 cm soil layer increased by 24-52 and 18-41%, respectively, of the fertilized plot compared to the unfertilized control plot. Methane oxidation on roots was also stimulated by urea, indicated by shorter lag times. Porewater concentrations of CH(4) in the 0-6 cm soil layer increased with time and soil depth, but were not affected by fertilization with urea. Urea application also exhibited little impact on CH(4) emission. During the 7 days following fertilization, urea only slightly reduced the CH(4) flux. Ammonium originating from urea hydrolysis was completely depleted from the porewater within 3 days, mainly due to plant uptake. Fertilizer application did also not affect the contribution of CH(4) oxidation to the net flux of CH(4), determined by measuring delta (13)CH(4) and by inhibition of CH(4) oxidation. The absence of any effect of urea on net CH(4) emission in this study was presumably caused by the rapid depletion of urea, the counterbalance between the increase of CH(4) production and the increase of CH(4) oxidation after fertilization, and methanogenesis in deeper soil layers. (C) 2001 Elsevier Science B.V. All rights reserved.
引用
收藏
页码:191 / 199
页数:9
相关论文
共 44 条
[1]   Denitrification coupled to nitrification in the rhizosphere of rice [J].
Arth, I ;
Frenzel, P ;
Conrad, R .
SOIL BIOLOGY & BIOCHEMISTRY, 1998, 30 (04) :509-515
[2]  
Banik A, 1996, BIOL FERT SOILS, V21, P319, DOI 10.1007/BF00334910
[3]  
BEDARD C, 1989, MICROBIOL REV, V53, P68
[4]   Effect of CH4 concentrations and soil conditions on the induction of CH4 oxidation activity [J].
Bender, M ;
Conrad, R .
SOIL BIOLOGY & BIOCHEMISTRY, 1995, 27 (12) :1517-1527
[5]   Stimulation by ammonium-based fertilizers of methane oxidation in soil around rice roots [J].
Bodelier, PLE ;
Roslev, P ;
Henckel, T ;
Frenzel, P .
NATURE, 2000, 403 (6768) :421-424
[6]   Effects of ammonium-based fertilisation on microbial processes involved in methane emission from soils planted with rice [J].
Bodelier, PLE ;
Hahn, AP ;
Arth, IR ;
Frenzel, P .
BIOGEOCHEMISTRY, 2000, 51 (03) :225-257
[7]   Acetylene blockage technique leads to underestimation of denitrification rates in oxic soils due to scavenging of intermediate nitric oxide [J].
Bollmann, A ;
Conrad, R .
SOIL BIOLOGY & BIOCHEMISTRY, 1997, 29 (07) :1067-1077
[8]  
Brand WA, 1996, J MASS SPECTROM, V31, P225, DOI 10.1002/(SICI)1096-9888(199603)31:3<225::AID-JMS319>3.0.CO
[9]  
2-L
[10]   Automated chamber measurements of methane and nitrous oxide flux in a flooded rice soil .1. Residue, nitrogen, and water management [J].
Bronson, KF ;
Neue, HU ;
Singh, U ;
Abao, EB .
SOIL SCIENCE SOCIETY OF AMERICA JOURNAL, 1997, 61 (03) :981-987