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Ammonia and nitrous oxide emissions from a field Ultisol amended with tithonia green manure, urea, and biochar

农田老成土添加肿柄菊绿肥、尿素和生物炭后氨和一氧化二氮排放情况

关键词:
来源:
Biology and Fertility of Soils
全文链接1:
http://agri.ckcest.cn/file1/M00/06/5E/Csgk0FxT7nKAM4h8ABlnpH_dplE496.pdf
全文链接2:
类型:
学术文献
语种:
英文
原文发布日期:
2019-01-10
摘要:
Short-term mitigation of ammonia (NH3) and nitrous oxide (N2O) emissions by biochar soil amendments has been reported, but limited knowledge of the mechanisms, particularly those associated with long term changes, remain relatively unknown. In order to investigate potential mechanisms and residual effect of biochar on NH3 and N2O emission, a 3-year field trial was set up on an Ultisol in western Kenya with a three-replicate full factorial treatment structure. The factors investigated include the following: biochar (from eucalyptus wood, pyrolyzed at 550 °C, applied once before the start of the experiment at either 0 or 2.5 t ha−1 ); tithonia green manure applied at the start of each season at either 0, 2.5, or 5.0 t ha−1 ; mineral nitrogen (N) (as urea applied each season at either 0 or 120 kg N ha−1 ). NH3 as well as N2O emission and water-filled pore space (WFPS) were monitored throughout the 3 years. In the third year, soil mineral nitrogen (exchangeable NH4 + and NO3 − ) contents were measured. Biochar reduced cumulative emissions of NH3 and N2O by 47 ± 5 and 22% ± 3, respectively, over the 3 years. Over the 3 years, the effect size of biochar was reduced by 53 and 59% for NH3 and N2O, respectively, indicating that the residual effect of biochar on NH3 and N2O persists at least up to 3 years under field conditions. Tithonia and urea additions increased both gas emissions by 13– 68% compared to the control. Combination of the three amendments reduced cumulative NH3 emissions by 18 ± 3%, but had no effect on cumulative N2O. Our results show that biochar can influence emissions of NH3 and N2O longer than most previous studies have reported but is not explained by N dynamics. Other mechanisms such as direct interactions with oxidized biochar surfaces could be more likely to account for the residual effect of biochar on NH3 and N2O in agricultural soils.
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