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机构地区:[1]中国科学院南京土壤研究所土壤与农业可持续发展国家重点实验室
出 处:《应用生态学报》2005年第1期100-104,共5页Chinese Journal of Applied Ecology
基 金:中国科学院知识创新工程重大项目(KZCX1SW0105);国家杰出青年科学基金项目(40125004);国家重点基础研究发展规划资助项目(G1999011805).
摘 要:运用土壤盆栽试验、静态箱法采样和气相色谱分析技术研究了种植玉米土壤和裸土在两种土壤施氮水平(低氮150mg·kg-1土,和高氮300mg·kg-1土)下对土壤排放N2O的影响.结果表明,在种植玉米的土壤中,N2O排放率的峰值出现在苗期,且氮肥施用量的影响显著,土壤N2O排放率与温度没有显著的相关性.在裸土中,土壤N2O排放率的峰值出现在试验后期,土壤N2O排放率与温度呈极显著指数相关.土壤施氮量增加,土壤N2O排放总量增加,裸土N2O增加尤其显著,种植玉米比裸土减少87%~92%的N2O排放量.这一结果表明种植作物与否,不仅改变了土壤N2O排放的季节变化和排放量,而且改变了温度与土壤N2O排放之间的关系.With pot experiment and using static chamber-GC technique,this paper studied the effects of N application(150 and 300 mg·kg^-1 soil)and maize growth on N_2O emission from soil.In maize-planted soil,the N_2O emission rate increased with increasing N application rate,its peak appeared at seedling stage,and there was no significant correlation between N_2O emission and air temperature.Contrarily,in bare soil,the peak of N_2O emission rate occurred at the anaphase of the experiment,and there was a significant exponential correlation between N_2O emission and air temperature.The total amount of N_2O emission increased remarkably with increasing N application rate in both planted and bare soils.In comparing with bare soil,maize-planting reduced N_2O emission by 92% and 87%,respectively at high and low N application rates,which suggested that maize-planting not only affected the seasonal variation and magnitude of N_2O emission from soil,but also altered the relationship between air temperature and soil N_2O emission.
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