Effects of controlled-release fertilizer on rice grain yield, nitrogen use efficiency, and greenhouse gas emissions in a paddy field with straw incorporation
文献类型: 外文期刊
作者: Sun, Huifeng 1 ; Zhou, Sheng 1 ; Zhang, Jining 1 ; Zhang, Xianxian 1 ; Wang, Cong 1 ;
作者机构: 1.Shanghai Acad Agr Sci, Ecoenvironm Protect Res Inst, Shanghai 201403, Peoples R China
2.Shanghai Engn Res Ctr Low Carbon Agr SERCLA, Shanghai 201415, Peoples R China
关键词: Straw incorporation; Controlled-release urea; Rice grain yield; CH4; N2O
期刊名称:FIELD CROPS RESEARCH ( 影响因子:5.224; 五年影响因子:6.19 )
ISSN: 0378-4290
年卷期: 2020 年 253 卷
页码:
收录情况: SCI
摘要: The incorporation of crop straw to cropland is increasingly being recommended due to its ability to improve soil fertility. Controlled-release fertilizer could enhance nitrogen (N) use efficiency and crop grain yield in a rice-wheat rotation cropping system. The effects of controlled-release fertilizer with wheat straw incorporation on rice grain yield and greenhouse gas (GHG) emissions is poorly understood. Four treatments, i.e., chemical fertilizer (CF), chemical fertilizer with straw incorporation (CF + WS), controlled-release urea with straw incorporation (CRU + WS), and no fertilizer (C), were applied to investigate the effects of CRU + WS on rice grain yield, N use efficiency and GHG emissions in multiple rice growing seasons. Relative to CF, rice grain yield from CF + WS decreased by 0.4-2.3% in 2012 and 2013 seasons but increased by 2.3-4.0% in 2014 and 2015 seasons, and significantly enhanced by 9.3% in 2016 season (p < 0.05). No significant difference in N use efficiency was observed between CF and CF + WS in any season, although the trend in that followed the similar pattern as rice grain yield when compared CF + WS with CF. CRU + WS significantly increased rice grain yield by 6.8-18.2% (p < 0.05) and enhanced N use efficiency by 42.0-150.5% (p < 0.05) compared to CF + WS. CH4 emissions from CF + WS and CRU + WS were comparable with each other, which were greatly higher by 156.8-358.6% and by 163.7-364.9% than that from CF, respectively. CF + WS had the potential to reduce N2O emission relative to CF in most rice growing seasons, whereas CRU + WS greatly stimulated N2O emission by 153.0-399.3% and 41.5-319.4% compared to CF and CF + WS, respectively. The GHG emission intensity (GHGI), calculated from greenhouse gases (CH4 and N2O) emissions and rice grain yield from CRU + WS were comparable with that from CF + WS in all rice growing seasons, and they enhanced the GHGI by 165.6-197.7% and by 128.0-253.1% relative to CF, respectively. In conclusion, in the paddy fields with wheat straw incorporation, the application of CRU, rather than conventional CF, could remarkably enhance rice grain yield, improve N use efficiency, but have lithe effect on GHGI due to its stimulation in N2O emission. More efforts are required to mitigate N2O emission when CRU is used in the future.
- 相关文献
作者其他论文 更多>>
-
Ecological and Economic Benefits of Greenhouse Gas Emission Reduction Strategies in Rice Production: A Case Study of the Southern Rice Propagation Base in Hainan Province
作者:Zhang, Xianxian;Sun, Huifeng;Wang, Cong;Zhang, Jining;Zhou, Sheng;Zhang, Xianxian;Sun, Huifeng;Wang, Cong;Zhang, Jining;Zhou, Sheng;Zhang, Xianxian;Sun, Huifeng;Wang, Cong;Zhang, Jining;Zhou, Sheng;Bi, Junguo;Bi, Qingyu;Luo, Lijun;Wang, Weikang;Sun, Donglai
关键词:WDR; water-saving irrigation; nitrogen fertilizer; CH4; N2O
-
Composting and Pyrolysis Strategies to Manage Flammulina velutipes Residue and Base Waste Based on the Biodegradability and Carbon Sequestration Potential
作者:Zhang, Jining;Zhang, Xianxian;Wang, Cong;Sun, Huifeng;Zhou, Sheng;Zhang, Jining;Zhang, Xianxian;Wang, Cong;Sun, Huifeng;Zhou, Sheng;Zhang, Jining;Zhang, Xianxian;Wang, Cong;Sun, Huifeng;Zhou, Sheng;Gao, Ya;Xu, Suyun;Wang, Lehui;Jia, Wei
关键词:Biochar; Composting; Flammulina velutipes Sing (F. velutipes); Pyrolysis; Spent mushroom substrate waste
-
Crosstalk between methanogens and methanotrophs determines methane emissions in a rice paddy under different watering regimes
作者:Zhang, Xianxian;Sun, Huifeng;Zhang, Jining;Wang, Cong;Zhou, Sheng;Lv, Zuopeng;Bi, Junguo;Zhang, Xianxian;Sun, Huifeng;Zhang, Jining;Wang, Cong;Zhou, Sheng;Zhang, Xianxian;Sun, Huifeng;Zhang, Jining;Wang, Cong;Zhou, Sheng
关键词:Methane emission; Methanogens; Methanotrophs; Water regimes; Rice paddy soil
-
Comammox plays a functionally important role in the nitrification of rice paddy soil with different nitrogen fertilization levels
作者:Zhang, Kai;Jiang, Ran;Wang, Yan-Ren;Zhang, Ru-Yi;Zhang, Sheng-Nan;Quan, Zhe-Xue;Sun, Hui-Feng;Zhou, Sheng;Sun, Hui-Feng;Zhou, Sheng;Kang, You-Cai;Li, Yang-Yang;Li, Peng;Yang, Fan;Quan, Zhe-Xue
关键词:Comammox; Gross ammonia-oxidizing activity; (NO3)-N-15 isotopic pool dilution; Nitrification inhibitor
-
Long term comparison of GHG emissions and crop yields in response to direct straw or biochar incorporation in rice-wheat rotation systems: A 10-year field observation
作者:Sun, Huifeng;Zhang, Xianxian;Zhang, Jining;Wang, Cong;Zhou, Sheng;Sun, Huifeng;Zhang, Xianxian;Zhang, Jining;Wang, Cong;Zhou, Sheng;Sun, Huifeng;Zhang, Xianxian;Zhang, Jining;Wang, Cong;Zhou, Sheng;Sun, Huifeng;Zhang, Xianxian;Zhang, Jining;Wang, Cong;Zhou, Sheng
关键词:Straw incorporation; Biochar addition; Methane emission; Nitrous oxide emission
-
Composting and Pyrolysis Strategies to Manage Flammulina velutipes Residue and Base Waste Based on the Biodegradability and Carbon Sequestration Potential
作者:Zhang, Jining;Zhang, Xianxian;Wang, Cong;Sun, Huifeng;Zhou, Sheng;Zhang, Jining;Zhang, Xianxian;Wang, Cong;Sun, Huifeng;Zhou, Sheng;Zhang, Jining;Zhang, Xianxian;Wang, Cong;Sun, Huifeng;Zhou, Sheng;Gao, Ya;Xu, Suyun;Wang, Lehui;Jia, Wei
关键词:Biochar; Composting; Flammulina velutipes Sing (F. velutipes); Pyrolysis; Spent mushroom substrate waste
-
Modulating the redox couples of graphene-like NBC-TiO2@FeMn through forming photo-Fenton system for boosting persulfate activation to accelerate the contaminant degradation
作者:Bai, He;Yang, Yuxiang;Dong, Mengyang;Zhang, Jining;Yang, Yubing;Yuan, Hongming;Wang, Chengyin;Ni, Chaoying
关键词:Graphene-like biochar; Photo-Fenton; Redox cycles; FeMn LDH; SR-AOPs
