农科机构知识库联盟

New model for capturing the variations of fertilizer-induced emission factors of N2O

文献类型：外文期刊

第一作者： Zhou, Feng

作者： Zhou, Feng;Shang, Ziyin;Zeng, Zhenzhong;Piao, Shilong;Wang, Xuhui;Tao, Shu;Gao, Shuoshuo;Mao, Qi;Ciais, Philippe;Wang, Rong;Raymond, Peter A.;Chen, Minpeng;Yang, Changliang;Zhao, Yue;Meng, Qian

作者机构：

关键词： nitrous oxide;agricultural soils;emission factor;nonlinear response;Bayesian inference;data mining

期刊名称：GLOBAL BIOGEOCHEMICAL CYCLES （影响因子：5.703；五年影响因子：6.374 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： Accumulating evidence indicates that N2O emission factors (EFs) vary with nitrogen additions and environmental variations. Yet the impact of the latter was often ignored by previous EF determinations. We developed piecewise statistical models (PMs) to explain how the N2O EFs in agricultural soils depend upon various predictors such as climate, soil attributes, and agricultural management. The PMs are derived from a new Bayesian Recursive Regression Tree algorithm. The PMs were applied to the case of EFs from agricultural soils in China, a country where large EF spatial gradients prevail. The results indicate substantial improvements of the PMs compared with other EF determinations. First, PMs are able to reproduce a larger fraction of the variability of observed EFs for upland grain crops (84%, n=381) and paddy rice (91%, n=161) as well as the ratio of EFs to nitrogen application rates (73%, n=96). The superior predictive accuracy of PMs is further confirmed by evaluating their predictions against independent EF measurements (n=285) from outside China. Results show that the PMs calibrated using Chinese data can explain 75% of the variance. Hence, the PMs could be reliable for upscaling of N2O EFs and fluxes for regions that have a phase space of predictors similar to China. Results from the validated models also suggest that climatic factors regulate the heterogeneity of EFs in China, explaining 69% and 85% of their variations for upland grain crops and paddy rice, respectively. The corresponding N2O EFs in 2008 are 0.840.18% (as N2O-N emissions divided by the total N input) for upland grain crops and 0.650.14% for paddy rice, the latter being twice as large as the Intergovernmental Panel on Climate Change Tier 1 defaults. Based upon these new estimates of EFs, we infer that only 22% of current arable land could achieve a potential reduction of N2O emission of 50%.

分类号： P5`P593

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