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论文题目 Effects of long-term nitrogen fertilization on N2O, N-2 and their yield-scaled emissions in a temperate semi-arid agro-ecosystem
作  者 Bizimana, F (Bizimana, Fiston); Timilsina, A (Timilsina, Arbindra); Dong, WX (董文旭); Uwamungu, JY (Uwamungu, Jean Yves); Li, XX (李晓欣); Wang, YY (王玉英); Pandey, B ; Qin, SP (秦树平); Hu, CS (胡春胜);
发表年度 2021
刊物名称 JOURNAL OF SOILS AND SEDIMENTS
卷、期、页码 21; 4; 1659-1671
影响因子
论文摘要
Purpose Nitrous oxide (N2O) measured simultaneously with di-nitrogen (N-2) emissions from soils are greatly uncertain due to large temporal and spatial variations. This study aims to report N2O, N-2, N-2/N2O, N-15-N2O, wheat-maize annual grain yields, and yield-scaled N2O and N2O plus N-2 emissions on the responses to different nitrogen (N) fertilizer rates in a winter wheat-summer maize cropping system. Furthermore, this study also seeks to determine controlling factors for N2O, N-2, and N-2/N2O emissions and significantly investigate the relationship between the soil-climate measured factors and N-15-N2O. Materials and method Three N inputs and control treatments, 0, CK; 200, LN; 400, MN; and 600, HN kg N ha(-1) year(-1) were set since 1998. Direct measurement method has been used to quantify N2O and N-2 emissions. Results Our results indicated that the effects of long-term N fertilization significantly increased N2O and N-2 and also reduced N-2/N2O emission ratios as described by exponential functions. Using structural equation modeling (SEM), NH4+, WFPS, NO3-, and DOC were revealed to be main controlling factors for N2O, while N-2 by DOC, NO3-, WFPS, and temperature finally N-2/N2O was positively related to temperature. Furthermore, the N-15-N2O was positively related to N-2/N2O ratios, indicating that denitrification is the dominant process at the study site. The yield-scaled N2O emissions followed the order HM>MN>LN>CK, and they were 1.56, 1.47, and 1.07 times greater than CK, respectively. Total yield-scaled N2O plus N-2 were in the order of CK>HN>MN>LN. Conclusion N fertilization has shown strong impact not only on N2O, N-2, and N-2/N2O emissions but also on yield-scaled N2O and N2O plus N-2 emissions. High agronomic nitrogen use efficiency (NUE), low yield-scaled N2O emissions, and low cumulative N2O plus N-2 emissions were observed at 200-LN treatment, suggesting this rate to be an optimum and sustainable agricultural management practice with no significant crop yield reduction as compared to the current farmers' practice of 400 kg N ha(-1) year(-1).
全文链接 http://doi.org/10.1007/s11368-021-02903-4
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