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| 长期施肥下黑土玉米田土壤温室气体的排放特征 |
| Emission Characteristics of Greenhouse Gas from Maize Field of Black Soil Region Under Long-term Fertilization |
| 投稿时间:2017-04-20 |
| DOI:10.13254/j.jare.2017.0103 |
| 中文关键词: 长期施肥,温室气体,排放强度,春玉米,黑土 |
| 英文关键词: long-term fertilization, greenhouse gas, emission intensity, spring maize, black soil |
| 基金项目:公益性行业(农业)科研专项(201503136-6);粮食丰产增效科技创新项目课题(2016YFD03008);吉林省科技支撑重大专项(20140203002NY) |
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| 中文摘要: |
| 研究不同施肥措施下东北黑土区玉米农田温室气体(CO2、N2O和CH4)的排放量及其增温潜势,将为制定农业温室气体减排措施提供理论依据。本研究以国家(公主岭)黑土长期定位试验为平台,采用静态箱-气相色谱法对不同施肥措施下玉米农田土壤温室气体排放通量进行了监测,并分析了不同施肥处理间玉米田的综合温室效应差异。结果表明:各施肥处理土壤温室气体CO2和N2O的排放高峰均出现在玉米拔节期。农家肥和化肥配施(M2NPK)处理土壤CO2、N2O排放通量和CH4吸收量均显著高于施化肥处理(P<0.05);施用化肥处理土壤CO2、N2O排放通量高于不施肥处理;撂荒区土壤CO2排放通量最高,而土壤N2O排放通量显著低于施肥处理;等施氮量条件下,化肥(NPK)处理土壤N2O排放通量明显高于秸秆还田(SNPK)处理,而土壤CH4净吸收量结果则截然相反。从土壤综合温室效应和温室气体强度可分析出,与不施肥(CK)比较,偏施化肥N和NPK处理的综合温室效应(GWP)分别增加了142%和32%,SNPK综合温室效应降低了38%;尤其是有机无机配施(M2NPK)处理的综合温室效应为负值,为净碳汇。平衡施肥NPK和有机无机肥配施(SNPK和M2NPK)温室气体排放强度(GHGI)较弱,显著低于不施肥(CK)和偏施化肥(N)处理,其中M2NPK为-222 kg CO2-eq·t-1。因此,为同步实现较高的玉米产量和较低的温室气体排放强度,有机无机肥配施是东北黑土区较为理想的土壤培肥方式。 |
| 英文摘要: |
| Study on greenhouse gases emission and their global warming potential under different fertilizations would be the theoretical basis for establishing measurements to reduce greenhouses gas emissions. Based on a long-term fertilization experiment, greenhouses gas(GHG) emissions from black soil of summer maize were measured by using a static chamber-gas chromatograph technique, and global warming potential(GWP) effect was also estimated. The results showed the peaks of CO2 and N2O emissions occurred at maize jointing period. The CO2 and N2O emission flux and CH4 uptake flux in the M2NPK treatment(mixed application of organic fertilizer and chemical fertilizer) were significantly higher than those of the chemical fertilizer treatments(P<0.05), but the CO2 and N2O emission flux in the chemical fertilizer treatments were higher than that of the no fertilizer treatment. The CO2 emission flux of the fallow treatment was the highest among all the treatments, but its N2O emission flux was significantly lower than that of the chemical fertilizer treatment. Under equal N rates, the N2O emission flux of the NPK treatment was significantly higher than that of the SNPK treatment(straw returning), but CH4 uptake flux was the opposite result. Compared with no fertilizer treatment(CK), GWP of the N and NPK treatments increased by 142% and 32% respectively, GWP of SNPK treatment decreased by 38%, and GWP in the M2NPK treatment was negative value. Greenhouse gas emission intensity(GHGI) of the NPK, SNPK and M2NPK treatments were significantly lower than that of the CK and the N treatments, GHGI of the M2NPK treatment was -222 kg CO2-eq·t-1. Therefore, in order to implement the higher maize yield with lower GHGI synchronously, mixed application of organic fertilizer and chemical fertilizer would be the optimal fertilization measurement in black soil region of Northeast China. |
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