Reduced nitrogen fertilization under flooded conditions cut down soil N2O and CO2 efflux: An incubation experiment
文献类型: 外文期刊
作者: Chen, Danyan 1 ; Liu, Hao 3 ; Ning, Yunwang 2 ; Xu, Cong 2 ; Zhang, Hui 2 ; Lu, Xinyu 2 ; Wang, Jidong 2 ; Xu, Xianju 2 ; Feng, Yuanyuan 2 ; Zhang, Yongchun 2 ;
作者机构: 1.Jinling Inst Technol, Coll Hort, Nanjing 210038, Peoples R China
2.Jiangsu Acad Agr Sci, Inst Agr Resources & Environm, Minist Agr & Rural Affairs, Sci Observat & Expt Stn Arable Land Conservat Jia, Nanjing 210014, Peoples R China
3.Powerchina Zhongnan Engn Corp Ltd, Changsha 410014, Peoples R China
4.Hohai Univ, Coll Agr Sci & Engn, Nanjing 210000, Peoples R China
5.Murdoch Univ, Coll Sci Hlth Engn & Educ, Murdoch Appl Innovat Nanotechnol Res Grp, Perth, WA 5150, Australia
关键词: Water; Nitrogen fertilizer; Paddy soil; Greenhouse gas; Microbial biomass
期刊名称:JOURNAL OF ENVIRONMENTAL MANAGEMENT ( 影响因子:8.91; 五年影响因子:8.549 )
ISSN: 0301-4797
年卷期: 2022 年 324 卷
页码:
收录情况: SCI
摘要: Unreasonable water (W) and inorganic nitrogen (N) fertilization cause an intensification of soil greenhouse gas (GHGs) emissions. W-N interactions (W x N) patterns can maximise the regulation of soil GHGs efflux through the rational matching of W and N fertilization factors. However, the effects of W x N patterns on soil GHGs efflux and the underlying mechanism remain unclear. In this study, urea fertilizers were applied to paddy soils in a gradient of 100 (N100), 80 (N80), and 60 mg kg(-1) (N60) concentrations. Flooding (W1) and 60% field holding capacity (W2) was set for each N fertilizer application to observe the effects of W x N patterns on soil properties and GHGs efflux through incubation experiments. The results showed that W significantly affected soil electrical conductivity and different N forms (i.e., alkali hydrolyzed N, ammonium N, nitrate N and microbial biomass N) contents. Soil organic carbon (C) content was reduced by 14.40% in W1N60 relative to W1N100, whereas microbial biomass C content was increased by 26.87%. Moreover, soil methane (CH4) fluxes were low in all treatments, with a range of 1.60-1.65 mu g CH4 kg(-1). Soil nitrous oxide (N2O) and carbon dioxide (CO2) fluxes were significantly influenced by W, N and W x N. Global warming potential was maintained at the lowest level in W1N60 treatment at 0.67 g CO2-eq kg(-1), suggesting W1N60 as the preferred W x N pattern with high environmental impact. Our findings demonstrate that reduced N fertilization contributes to the effective mitigation of soil N2O and CO2 efflux by lowering the soil total N and organic C contents and regulating soil microbial biomass C and N.
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