双氰胺对冬闲稻田和油菜地N2O排放的影响

冬季的温室气体排放往往被忽视,而最新的研究结果表明,冬闲稻田和冬季油菜地N_2O排放仍较大,研究相应的减排措施及减排机制对于减少农田土壤N_2O排放有重要意义.在中国科学院桃源农业生态试验站选择冬闲稻田和油菜地两种不同土地利用方式,并设置添加和不添加双氰胺(DCD)处理,采用静态箱采集和气相色谱法结合监测N_2O排放动态,利用分子生物学手段分析氨氧化古菌(AOA)和氨氧化细菌(AOB)的群落结构和丰度变化.结果表明,添加DCD后明显抑制了冬闲稻田和油菜地N_2O排放,分别减少了36.7%和23.6%.DCD施入抑制了冬闲稻田AOA和AOB的丰度但只改变AOA的群落结构,DCD使AOA和AOB丰度分别减少了59.3%和73.7%.与此相反,添加DCD只改变油菜地AOB的群落结构同时只抑制了AOB的丰度.本研究表明,施加DCD能有效减少冬闲稻田和冬季油菜地N_2O排放,但减排机制不一致.     

Attenuation of N2O emission rates from agricultural soil at different dicyandiamide concentrations

An experiment was conducted to assess the role of different concentrations of dicyandiamide (DCD), a potent nitrification inhibitor, on temporal changes in nitrous oxide emission from sandy loam agricultural soil. It was found that with increasing concentration of DCD i.e. from 6 to 12% of nitrogen applied in the form of urea, there was a decrease in the both average and peak N₂O emissions. However, from 14% DCD treated soil, there was a non-significant alteration in the N₂O emission. Maximum average N₂O efflux of 217.55 μg m⁻² h⁻¹ was noted from control plots. As compared to control, there was an attenuation of 50, 58, 65, and 91% average N₂O efflux from 6, 8, 10 and 12% DCD applied pots, respectively, whereas, there was a negative average of N₂O efflux from the soil with 14% DCD treatment. The soil N content also showed a significant correlation with N₂O emission. Therefore, 12% DCD treatment has been found to be the best with regard to attenuation of nitrous oxide from sandy loam agricultural soils.     

双氰胺和3,4-二甲基吡唑磷酸盐对蔬菜种植土壤氨氧化细菌和古菌的影响

硝化抑制剂双氰胺(DCD)和3,4-二甲基吡唑磷酸盐(DMPP)在抑制农业土壤硝化作用和提高氮肥利用率等方面效果显著,为了探讨它们对蔬菜种植土壤氨氧化细菌(AOB)和古菌(AOA)的作用机制,选取40 a以上蔬菜种植土壤,在施加尿素(CK)基础上,分别添加DCD和DMPP进行室内培养,系统监测了土壤中NH_4~+-N、NO_3~--N和硝化势的变化,同时运用荧光定量PCR和高通量测序等技术揭示了AOB和AOA种群丰度和多样性的演替规律.结果表明,相比CK处理,DCD处理和DMPP处理的NH_4~+-N含量升高了213%和675%; NO_3~--N含量降低了13. 3%和37. 2%;硝化势降低了20. 4%和82. 4%;同时,AOB丰度降低了51. 2%和56. 5%; AOA丰度降低了6. 0%和27. 0%.不同抑制剂处理间AOB和AOA的α多样性指数没有显著差异; nork-environmental-samples、unclassified-Nitrosomonadaceae、unclassified-Bactertia和Nitrosospira是AOB序列属水平的主要优势类群; norank-Crenarchaeota、norank-enviromental-samples和Nitrososphaera是AOA序列属水平的主要优势类群,施用DCD和DMPP显著改变了AOB和AOA的群落组成.综上所述,尿素与DCD和DMPP配施显著抑制NH_4~+-N的转化,降低AOB和AOA的种群丰度并改变其群落组成.相比DCD,DMPP对硝化作用的抑制和对AOB和AOA群落的影响更强.     

Emission of nitrous oxide from rice-wheat systems of Indo-Gangetic plains of India

Nitrous oxide (N₂O) accounts for 5%of the total enhanced greenhouse effect and responsiblefor the destruction of the stratospheric ozone. The rice-wheat cropping system occupying 26 million ha ofproductive land in Asia could be a major source ofN₂O as most of the fertilizer N in this region isconsumed by this system. Emission of N₂O asinfluenced by application of urea, urea plus farm yardmanure (FYM), and urea plus dicyandiamide (DCD), anitrification inhibitor, was studied in rice-wheatsystems of Indo-Gangetic plains of India. Total emissionof N₂O-N from the rice-wheat systems varied between654 g ha^-1 in unfertilized plots and 1570 g ha^-1 in urea fertilized plots. Application of FYM and DCDreduced emission of N₂O-N in rice. The magnitude ofreduction was higher with DCD. In wheat also N₂O-Nemission was reduced by DCD. FYM applied in rice had noresidual effect on N₂O-N emission in wheat. In riceintermittent wetting and drying condition of soilresulted in higher N₂O-N emission than that ofsaturated soil condition. Treatments with 5 irrigationsgave higher emissions in wheat than those with 3irrigations. In rice-wheat system, typical of a farmer'sfield in Indo-Gangetic plains, where 240 kg N isgenerally applied through urea, N₂O-N emission is1570 g ha^-1 (0.38% of applied N) and application ofFYM and DCD reduced it to 1415 and 1096 g ha^-1,respectively.     

氮肥与DCD配施对棚室黄瓜土壤NH3挥发损失及N2O排放的影响

以传统水氮管理为对照,进行了优化水氮管理条件下氮肥与DCD配施对大棚黄瓜土壤氨挥发损失及氧化亚氮排放的影响研究.试验结果表明,与传统水氮管理相比,优化水氮管理减少了氮肥用量及灌水量,但黄瓜产量并没有降低.各水氮处理的NH3挥发速率峰值出现在施肥灌水后的第3d,添加DCD的各优化水氮处理与传统水氮处理相比,土壤氨挥发累积量分别减少55.97%、43.68%、66.47%,4次追肥后W2N2+DCD、W2N3+DCD和W2N4+DCD的氨挥发速率峰值与累积量变化范围较小.不同水氮处理的N2O排放通量的峰值均出现在施肥灌水后的第4d,各追肥时期W2N2+DCD、W2N3+DCD和W2N4+DCD处理,土壤N2O排放通量峰值与N2O累计排放量均显著低于传统水氮处理W1N1,并且3个处理之间不存在显著差异,充分表明优化水氮管理中将氮肥与DCD配施对减少N2O排放起到了显著作用.