Impact of tillage on the spatial distribution of CH4 and N2O in the soil profile of late rice fields
文献类型: 外文期刊
第一作者: Feng, Jinfei
作者: Feng, Jinfei;Yang, Tong;Li, Fengbo;Zhou, Xiyue;Xu, Chunchun;Fang, Fuping
作者机构:
关键词: Spatial heterogeneity; Greenhouse gas emission; Tillage; Soil profile; Late rice
期刊名称:SOIL & TILLAGE RESEARCH ( 影响因子:5.374; 五年影响因子:6.368 )
ISSN: 0167-1987
年卷期: 2021 年 211 卷
页码:
收录情况: SCI
摘要: To better understand the effects of tillage on the spatial heterogeneity of CH4 and N2O in the soil profile of late rice fields, we conducted a field experiment to investigate the impacts of tillage methods (rotary tillage (RT) and no-tillage (NT)) on the spatial patterns and influential factors of CH4 and N2O in the soil pore water under different fertilization treatments (inorganic fertilizer with straw (FS) and no fertilizer (CK)). The results showed that great spatial variation was observed in the concentrations of CH4 and N2O in the soil profile. The content of CH4 in the soil pore water was significantly higher in the deep layer (-17.5 cm - -22.5 cm) than the upper layer (-2.5 cm - -7.5 cm) for NT-CK; but it was opposite for NT-FS. RT significantly increased the content of CH4 in the soil pore water at depths of -7.5 cm, -12.5 cm, and -17.5 cm as compared with NT irrespective fertilization. High values of N2O were observed in the deep layer (-17.5 cm - -22.5 cm) for NT-CK, middle layer (-7.5 cm - -15 cm) for RT-CK, upper layer (-2.5 cm - -10.0 cm) for NT-FS, and across the whole profile for RT-FS. The horizontal distribution of CH4 did not show a significant difference at different distances from the rice plant, whereas the horizontal distribution of N2O showed a general pattern where high values of N2O occurred at a distance from the rice plants. The results of classification and regression tree (CART) analysis showed that K+ and PO43- presented relatively higher importance to the spatial heterogeneity of CH4 and N2O in the soil profile of late rice fields, in contrast to the contents of carbon and nitrogen. These results provide detailed insight into the spatial distribution and influential factors of CH4 and N2O in the soil profile of rice fields.
分类号:
- 相关文献
作者其他论文 更多>>
-
Effect of rice cultivar on greenhouse-gas emissions from rice-fish co-culture
作者:Xie, Kexin;Wang, Mengjie;Wang, Xiaodan;Li, Fengbo;Xu, Chunchun;Feng, Jinfei;Fang, Fuping
关键词:Greenhouse gas emissions; Aquaculture; Rice -fish system; Rice cultivar
-
The Potential of Berberine to Target Telocytes in Rabbit Heart
作者:Yang, Min;Yang, Tong;Mei, Lu;Zhang, Yingxing;Liang, Chunhua;Bai, Xuebing;Zhang, Zhenwei;Chen, Qiusheng;Shi, Yonghong;Chen, Qiusheng
关键词:cardiac telocytes; berberine; Ca2+; CX43
-
Greenhouse Gas Emissions from Double-Season Rice Field under Different Tillage Practices and Fertilization Managements in Southeast China
作者:Yang, Tong;Yang, Zhi;Xu, Chunchun;Li, Fengbo;Fang, Fuping;Feng, Jinfei
关键词:methane; nitrous oxide; no tillage; straw return; biochar; yield; greenhouse gas intensity
-
Effects of Vegetable-Fish Co-Culture on CH4 and N2O Emissions from an Aquaculture Pond
作者:Bao, Ting;Wang, Xiaodan;Fang, Fuping;Feng, Jinfei;Li, Fengbo;Bao, Ting
关键词:greenhouse gases; GWP; vegetable-fish co-culture; available nitrogen; yield; freshwater aquaculture pond
-
Higher Food Yields and Lower Greenhouse Gas Emissions from Aquaculture Ponds with High-Stalk Rice Planted
作者:Li, Fengbo;Yang, Tong;Wang, Mengjie;Fang, Fuping;Feng, Jinfei;Qian, Haoyu;Jiang, Yu;Wu, Dianxing;Zhang, Ning
关键词:aquaculture pond; greenhouse gas emission; rice; mitigation strategy; integrate culture
-
High Fish Stocking Density Weakens the Effects of Rice-Fish Co-culture on Water Eutrophication and Greenhouse Gas Emissions
作者:Hu, Yi;Yang, Tong;Liu, Yaobin;Li, Fengbo;Xu, Chunchun;Fang, Fuping;Feng, Jinfei
关键词:Greenhouse gas emission; Rice-fish co-culture; Fish stocking density; Yield-scaled global warming potential
-
Product Type, Rice Variety, and Agronomic Measures Determined the Efficacy of Enhanced-Efficiency Nitrogen Fertilizer on the CH4 Emission and Rice Yields in Paddy Fields: A Meta-Analysis
作者:Yang, Tong;Wang, Mengjie;Wang, Xiaodan;Xu, Chunchun;Fang, Fuping;Li, Fengbo
关键词:enhanced efficiency nitrogen fertilizer; methane; yield; meta-analysis; Oryza sativa L.
