中文摘要：

为减少土壤N_2O排放,提高作物氮素利用,采用田间试验法研究了不同氮肥用量喷涂一定比例的吡啶（0、180、270、360 kg N·hm^（-2））对夏玉米生育期内土壤N_2O排放和氮素表观损失、籽粒产量及氮素利用的影响.结果表明：不同氮肥用量下喷涂吡啶的土壤N_2O排放主要集中在播种-苗期和拔节-抽雄期,基肥和追肥后均会出现显著的土壤N_2O排放通量高峰.随氮肥用量增加,玉米产量不断增加,但270和360 kg N·hm^（-2）间无显著差异,2种施氮量下的玉米分别净增收5209和5426元·hm^（-2）.与不施氮肥比,各施氮处理下的玉米籽粒吸氮量提高幅度为109.6%^134.1%.各处理间的氮肥农学效率和氮肥利用率均以氮肥喷涂吡啶270 kg N·hm^（-2）较大,而土壤氮素表观损失较小.氮肥喷涂吡啶在270 kg N·hm^（-2）时玉米增产增收,氮肥利用效率较高,土壤N_2O排放和氮素表观损失较少,是一种较为合理的氮肥调控施用技术.

英文摘要：

To reduce the N_2O emission from soil and enhance N utilization by crop,a field experiment was carried out to study the effects of nitrapyrin-N fertilizer application rates（ 0,180,270,360 kg N·hm^（-2）） on soil N_2O emission and N apparent loss,grain yield and N utilization of summer maize.Results showed that the soil N_2O emission under different N fertilizer treatments mainly occurred in periods from sowing to seedling,and from jointing to tasseling.Soil N_2O emission peaks were observed after basal and top dressing events.Maize yield increased with N fertilizer rates but there was no significant difference between 270 and 360 kg N·hm^（-2）,and the net income of these two treatments was 5209 and 5426 yuan·hm^（-2）,respectively.Compared with no N fertilizer treatment,the N uptake in the N fertilizer treatments was increased by 109.6%-134.1%.The treatment of 270 kg N·hm^（-2）had the highest agronomic N efficiency and N use efficiency,but the N apparent loss was low.The treatment with nitrapyrin-N fertilization rate of 270 kg N·hm^（-2）appeared to be the optimal rate to obtain high maize yield and N use efficiency,and low soil N_2O emission and N apparent loss.